路易斯安那中美洲石油協會：2021年墨西哥灣沿岸能源展望報告（英文版）（68頁）.pdf

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1、2021Gulf CoastEnergy OutlookDavid E. Dismukes | Gregory B. Upton, Jr.*Corresponding author1LSU Center for Energy Studies2021 Gulf Coast Energy OutlookDavid E. Dismukes LSU Center for Energy StudiesGregory B. Upton, Jr. LSU Center for Energy StudiesRelease Date: Fall 2020Acknowledgments The Gulf Coas

2、t Energy Outlook (GCEO) would not have been possible without the help of many who contributed both time and financial resources. First, the input from dozens of industrial, govern-mental, civic, and trade organizations that requested having the 2020 GCEO presented to their organizations is much appr

3、eciated. The feedback that was provided during these conferences and individual meetings was instrumental in preparing the current 2021 GCEO. While “crunching the numbers” is an important aspect of any forecasting process, the input provided by stakeholders who have an “on-the-ground” view of what i

4、s occurring in real time is equally valuable.Special thanks are owed to Marybeth Pinsonneault and Ric Pincomb (Center for Energy Studies) and Stephen Radcliffe (E.J. Ourso College of Business), for their media, editorial, and production expertise. Drew Smith (Center for Energy Studies) also contribu

5、ted to data collection and analysis included in this report.Last, but certainly not least, a special thanks and appreciation is extended to our sponsors. We know this has been a difficult year across all facets of the energy sector, so this year, in particular, we are extremely grateful for this fin

6、ancial support: Gold: Louisiana Mid-Continent Oil & Gas Association (LMOGA) and Phillips 66 Silver: Entergy, Enverus, and Koch Bronze: Bristow Group2Gulf Coast Energy Outlook 2021Table of Contents1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7、. . . . . . . . . . . . . . . . . 51.1 COVID-19 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51.2 Phase One of China Trade Deal Reached . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61.3 2020 Hurricane Season . . . . .

8、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81.4 What a Biden Presidency Could Mean for the Energy Industry . . . . . . . . . . . 92. Crude Oil and Natural Gas Production and Prices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102.1 Recent Market Trends

9、: Production . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102.2 Recent Regional Trends: Crude Oil and Natural Gas Production . . . . . . . . . . 142.3 Recent Trends: Commodity Pricing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 152.3.1 COVID-19 impa

10、cts on oil prices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162.4 Outlook: Commodity Pricing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 182.5 Outlook: Crude Oil and Natural Gas Production . . . . . . . . . . . .

11、 . . . . . . . . . . . . 203 Pipeline Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 223.1 Recent Trends . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 223.2 Pipel

12、ine Outlook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 244. Power Sector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 254.1 Recent Trends: Load Growth . . . . . . . .

13、 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 254.2 Recent Trends: Carbon Emissions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 274.3 Outlook: Capacity Investment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 285. Energy

14、Manufacturing Activity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305.1 Recent Trends . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305.2 Energy Manufacturing Outlook . . . . . . . . . . . . .

15、. . . . . . . . . . . . . . . . . . . . . . . . . 366. Energy Exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 396.1 Recent Trends: Refined Product Export . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 396.2 Re

16、cent Trends: Crude Oil Exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 446.3 Recent Trends: LNG Exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 456.4 Outlook: Refined Product Exports . . . . . . . . . . . . . . . . . . . . . .

17、 . . . . . . . . . . . . . . 506.5 Outlook: Crude Oil Exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 526.6 Outlook: LNG Exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 537. COVID-19 Impacts on Domestic E

18、nergy Demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 557.1 Electricity Demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 557.2 Transportation Fuels Demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

19、. . . . 567.3 Natural Gas Demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 578. Employment Outlook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 588.1 Employment Forecasts . . . . . . . .

20、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 589. Conclusions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 623LSU Center for Energy StudiesList of FiguresFigure 1: U.S. crude oil and natural gas

21、 production . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Figure 2: U.S. crude oil prices and rig count . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Figure 3: Rig counts in major shale ba

22、sins . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Figure 4: Gulf Coast crude oil and natural gas production . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Figure 5: Historical inflation-adjusted n

23、atural gas price. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Figure 6: Historic inflation-adjusted oil prices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16Figure 7: Crude oil price outlook . . .

24、 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Figure 8: Natural gas price outlook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Figure 9: Crude o

25、il production forecast and Gulf Coast share of U.S. production . . . . . . . . . . . . . . . . . . . . . . 21Figure 10: Natural gas production forecast and Gulf Coast share of U.S. production . . . . . . . . . . . . . . . . . . 21Figure 11: PADD 3 crude oil movements by transportation type . . . . .

26、 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23Figure 12: Henry Hub and Waha natural gas prices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24Figure 13: Gulf Coast natural gas pipeline capacity outlook . . . . . . . . . . . . . .

27、. . . . . . . . . . . . . . . . . . . . . . . . . . 25Figure 14: U.S. and Gulf Coast electricity sales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Figure 15: U.S. and Gulf Coast industrial electricity sales . . . . . . . . . . . . . . . . .

28、 . . . . . . . . . . . . . . . . . . . . . . . . . 27Figure 16: U.S. and Gulf Coast carbon dioxide emissions from electricity generation . . . . . . . . . . . . . . . . . . 28Figure 17: U.S. power generation capacity and outlook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

29、 . . . . . . . . 29Figure 18: Gulf Coast power generation capacity and outlook . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29Figure 19: GOM energy manufacturing investments by state . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30Figure

30、 20: GOM energy manufacturing investments by sector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Figure 21: Oil-to-gas price ratio . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32Figure 2

31、2: U.S. chemical industry production and capacity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34Figure 23: Gulf Coast chemical exports to China . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35Figure 24: Gulf Coas

32、t chemical exports to rest of world . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36Figure 25: Collapse in output followed by a slow recovery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37Figure 26: Number and capacity of

33、U.S. refineries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39Figure 27: PADD 3 refining capacity and utilization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40Figure 28: Monthly PADD 3 and U.S. ref

34、ining utilization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Figure 29: PADD 3 petroleum product supplied . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41Figure 30: Monthly PADD 3 petroleum product sup

35、plied . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Figure 31: U.S. petroleum product imports and exports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Figure 32: Monthly U.S. petroleum product imports and exports .

36、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43Figure 33: U.S. crude oil exports and imports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44Figure 34: Monthly U.S. crude oil exports and imports . . . . . . . . . . .

37、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45Figure 35: World LNG trade volumes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 464Gulf Coast Energy Outlook 2021List of TablesTable 1: China import commitment

38、s in perspective. Phase I China Trade Deal . . . . . . . . . . . . . . . . . . . . . . . . .7Table 2: COVID-19 impacts on U.S. crude oil and natural gas production . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Table 3: Oil prices and relevant events . . . . . . . . . . . . . . . . . . .

39、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17Table 4: GOM energy manufacturing investment, GCEO comparison . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Table 5: Chemical industry, revised capex . . . . . . . . . . . . . . . . . . . . . . . . .

40、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33Table 6: Total GOM investment, all project announcements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38Table 7: Total GOM investment, new baseline outlook . . . . . . . . . . . . . . . . . . . . . . . .

41、 . . . . . . . . . . . . . . . . . . . . 38Table 8: Electricity demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56Table 9: Transportation fuel demand . . . . . . . . . . . . . . . . . . . . . . . . . . . .

42、 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57Table 10: Domestic natural gas demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58Figure 36: LNG imports and market share by country, 2019 . . . . . . . . . . . .

43、. . . . . . . . . . . . . . . . . . . . . . . . . . . . 47Figure 37: Chinas natural gas demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48Figure 38: World energy prices . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

44、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49Figure 39: Japan spot LNG price . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50Figure 40: Gulf Coast exports to China . . . . . . . . . . . . . . .

45、 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51Figure 41: U.S. and world petroleum demand . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52Figure 42: U.S. crude oil exports . . . . . . . . . . . . . .

46、. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53Figure 43: Existing and proposed U.S. LNG capacity development . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54Figure 44: Revised existing and proposed U.S. LNG capacity developm

47、ent . . . . . . . . . . . . . . . . . . . . . . . . . . 54Figure 45: Louisiana upstream employment forecast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59Figure 46: Texas upstream employment forecast . . . . . . . . . . . . . . . . . . . . . . . . . . .

48、. . . . . . . . . . . . . . . . . . . . . . 60Figure 47: Louisiana refining and Chemical manufacturing employment forecast . . . . . . . . . . . . . . . . . . . . . 61Figure 48: Texas refining and chemical manufacturing employment forecast . . . . . . . . . . . . . . . . . . . . . . . . . 615LSU Cen

49、ter for Energy Studies1. IntroductionThe annual GCEO is designed to provide stakeholders with a “one-stop” overview of the current trends and outlook for the regions energy industry and its various sectors. The GCEO is a work prod-uct of Louisiana State Universitys Center for Energy Studies and has

50、been sponsored by several companies and institutions looking to assist LSU in disseminating timely information and analysis impacting the regions economy and citizenry. The GCEO is also supported by the Centers general state appropriation, which represents a generous commitment by the Louisiana Legi

51、slature to support energy-related research. It would be difficult to produce the GCEO without both sources of support.Unless stated otherwise, the “Gulf Coast” region specifically refers to the states of Texas, Louisiana, Mississippi, and Alabama. In some instances, the U.S. Department of Energy rep

52、orting conventions will require references to data collected at the Petroleum Administration Defense District 3 (PADD 3) level, which includes Arkansas and New Mexico, in addition to the Gulf Coast states. Employment forecasts will focus on Louisiana and Texas. Where not specified, the forecast hori

53、zon extends to the end of 2024, or approximately three years. The remainder of this introduction will highlight the big picture considerations and assumptions made in subsequent analysis and forecasting. 1.1 COVID-19Forecasting is difficult under normal circumstances; this year there is perhaps more

54、 uncertainty than ever. In January of 2020, the U.S. economy was in its 126th month of economic growth, the longest in modern history. Demand growth in Asia, the source of demand for energy products produced in the Gulf Coast, was strong and, while slowing was expected to continue, was well above gr

55、owth rates in the developed world. President Trump and Chinese President Xi Jingping had just signed Phase I of a trade deal, at least temporarily alleviating some of the source of risk highlighted in last years GCEO. Oil prices were about $60 per barrel, a level that is a good balance and high enou

56、gh to support continued exploration and production and sustain a profitable refining sector. According to last years GCEO, there were more than $190 billion of investment announcements in the energy sector, and a number of important pipeline investments were underway to deliver the hydrocarbons to t

57、he Gulf Coast for processing and delivery all over the world. The 2020 GCEO was forecasting that, barring an unforeseen external shock, oil and natural gas production was projected to continue to set records in coming years, and employment in the refining and chemical manufacturing sector would expe

58、rience growth. In March of 2020, everything changed rapidly when the COVID-19 pandemic essentially shut down the global economy. Oil markets were rocked by (1) a historic decline in demand due to COVID-19 and (2) a failed OPEC+ deal to curtail output and sustain prices. These combined factors create

59、d the perfect storm for a complete collapse in energy prices to a low that at one point touched on an unheard-of negative daily price for West Texas Intermediate (WTI) oil. U.S. production immediately fell in response to these price signals from a record high of 12.86 million barrels per day in Nove

60、mber of 2019 to 10.0 million barrels per day by May 2020. This is an over 20 percent drop in U.S. oil produc-tion in just seven monthsthe largest percent change in any seven-month period in modern history. 6Gulf Coast Energy Outlook 2021The question GCEO will be addressing this year is, where does t

61、he energy industry go from here? How have companies responded operationally to a global pandemic? How quickly will the global, national and regional economies recover? The speed of recovery will play a major role in how quickly demand for transportationand therefore energy productswill rebound. But

62、to further complicate matters, has the COVID-19 pandemic also changed long-term behavior? Therefore, while specific long-term forecasts are not presented, the GCEO will also be tasked with considering whether the fundamental relationships between energy consumption and economic activity has changed

63、more broadly. For purposes of economic modeling, COVID-19 is assumed to attenuate globally and the world is slowly able to return to some level of normalcy over the next two years. Another wave of COVID-19 leading to cascading shutdowns would certainly make our forecasts less optimistic. In the long

64、 run, transportation demand will rebound, but not to its pre-COVID-19 trajectory, especially in the developed world. 1.2 Phase One of China Trade Deal ReachedPerhaps the largest risk to the Gulf Coast energy industry, and in particular to the continued indus-trial construction, highlighted in last y

65、ears GCEO, was the trade negotiations with China. For the past two years, the GCEO has articulated the significant economic and energy market changes occur-ring along the Gulf Coast. Increasingly, the region is transforming itself into an exporter of energy and chemical products (that are derived fr

66、om hydrocarbons), as well as one that will likely serve as a transfer point or hub for global energy transactions. The U.S. for instance, was exporting about five million barrels per day pre-COVID-19 of petroleum products, most of which were leaving a Gulf Coast port. Last year, the 2020 GCEO highli

67、ghted how the escalating trade disputes with China, the worlds most populous country and second largest economy, had resulted in increased tariffs on natural gas and petroleum products. Specifically, in response to U.S. tariffs meant to bring China to the negotiating table, on June 1, 2019, China in

68、creased its tariff on natural gas coming from the U.S. in the form of liquefied natural gas (LNG) from 10 percent to 25 percent. The 2020 GCEO reported that at least one announced LNG project had been postponed, with others seriously considering their development potential if these tariffs continued

69、. Estimates suggest that in total, the U.S. applied $550 billion in tariffs exclusively to China, with China responding in applying $185 billion in tariffs exclusively to U.S. goods.1 After months of negotiations, in January of 2020, the U.S. and China signed Phase 1 of a trade deal that went into e

70、ffect on February 14.2 The 91-page agreement includes six chapters covering topics such as intellectual property, technology transfer, trade in food and agricultural, financial services, and macroeconomic policies. 1 Dean Shira & Associates. China Briefing. The US-China Trade War: A Timeline. Access

71、ed September 2020. 2 Economic and trade agreement between the government of the United States of America and the government of the Peoples Republic of China. 7LSU Center for Energy StudiesTable 1: China import commitments in perspective. Phase I China Trade DealManufacturingAgricultureEnergyOtherTot

72、alPanel A: U.S. Exports (Billions USD)*(1)(2)(3)(4)(5)China2017$50.4$20.9$7.6$51.0$130.02018$49.0$10.4$8.0$52.8$120.32019$49.3$14.8$3.6$38.8$106.4World2017$627.8$153.5$59.2$706.7$1,547.22018$648.3$155.5$95.6$766.3$1,665.72019$646.5$151.3$108.4$736.9$1,643.2Panel B: Phase I China Import Increase Comm

73、ittment (Billions USD)*2020$32.9$12.5$18.5$12.8$76.72021$44.8$19.5$33.9$25.1$123.3Panel C: China Import Commitment Percent 2017-2019 Exports*China202066.3%81.2%288.8%26.9%64.5%202190.3%126.7%529.1%52.8%103.7%World20205.1%8.1%21.1%1.7%4.7%20217.0%12.7%38.6%3.4%7.6%Sources: * U.S. Census Bureau: Econo

74、mic Indicators Division USA Trade Online. * China Phase I Trade Deal. Chapter 6. *Authors calculatonsAs summarized in Table 1, Chapter 6 of the Phase I trade deal focused on expanding trade and perhaps has received the most attention. It requires that in 2020 and 2021, China will increase purchases

75、and imports, into China from the United States, of manufactured goods, agricultural prod-ucts, energy products and services, exceeding the 2017 baseline amount by no less than $200 billion. A specific carve-out of $52.4 billion for energy products is included.3To put the energy carve-out into perspe

76、ctive, this is equivalent to 21 percent of the U.S.s historical (as measured by the average of 2017-19) total energy exports in 2020, and 38 percent in 2021. These are large numbers, and China is currently not on track to meet these commitments.4 There is signif-icant uncertainty as to what might ha

77、ppen in these trade talks if China does indeed not meet these commitments. At the time that this document is being finalized, the U.S. is still waiting for the result of 3 Specifically, $18.5 billion in 2020 and $33.9 billion in 2021. 4 The Peterson Institute for International Economics (PIIE) is ac

78、tively tracking Chinas purchases of U.S. goods. At the time of this writing, China is significantly below its agreed targets in all areas, including agriculture, manufactured goods, and energy. 8Gulf Coast Energy Outlook 2021the recent presidential election. The outcome could have significant implic

79、ations for how and if these negotiations continue. Would a Biden presidency revert to a pre-Trump trade policy with China? Would an emboldened Trump, with an election behind him, increase pressure on China? Is another round of tariffs to come? Or perhaps negotiations could be successful in reducing

80、trade barriers with-out imposing addition tariffs? For purposes of economic modeling, the GCEO will work under the assumption that trade talks with China do not deteriorate, that new tariffs will not be implemented, and that these export commitments on net do not impact demand for Gulf Coast energy

81、products. 1.3 2020 Hurricane SeasonAs if a global pandemic were not enough, 12 major hurricanes were recorded, with five reaching Category 3 status or higher. For the first time in recorded history, five named storms made landfall in Louisiana. Most notably, on August 15, Hurricane Laura, the strong

82、est hurricane on record in the states history, made landfall in Cameron Parish, Louisiana. Hurricane Laura made landfall as a Category 4 and caused billions of dollars of damage across many sectors of the economy, including damage to elec-tricity infrastructure, agricultural products such as forestr

83、y5, and of course damage to residential homes and local businesses. Fewer than three weeks later, Hurricane Sally made landfall as a Category 2 hurri-cane near Gulf Shores, Alabama. Hurricane Delta made landfall on October 9 as a Category 2 also near Lake Charles. Finally, on October 28, Hurricane Z

84、eta made landfall in southeast Louisiana. Perhaps most notably for our purposes, the Lake Charles area in southwest Louisiana has been ground zero for billions in infrastructural investments in the refining, chemical manufacturing, and export of natural gas in the form of liquefied natural gas. In f

85、act, over 40 percent of the energy infra-structure investment made in Louisiana over the past decade has been in the Lake Charles area. Workers in the energy processing and export industry in the region have confirmed that the industry was incredibly resilient through these hurricanes. Perhaps most

86、notably, news reports have confirmed that neither Chenieres Sabine Pass nor the Cameron LNG facility experienced major damage during Hurricane Laura and are now back up and running.6 Industry insiders reported that this was an important litmus test for other LNG export facilities that are weighing t

87、he risk of hurricane damage. The most nota-ble damage to an individual plant was a fire at BioLab in Westlake Chemicals Lake Charles Complex. In terms of electricity infrastructure, while final numbers are not yet released, Entergy alone has reported $1.4 billion in damage associated with Laura, wit

88、h the plurality of this damage on trans-mission infrastructure. Entergy reported 1,285 transmission structures destroyed, with another 492 damaged, and 297 substations out.7 Both SWEPCO and Cleco have also reported significant damage, but at the time of this writing specific public damage estimates

89、have not yet been released. At the peak over 600,000 customers had power outages.8 5 According to the LSU Ag Center, approximately $1.1 billion dollars of timber was lost due to Hurricane Laura.6 Sabine pass was up and running more quickly than Cameron LNG due to quicker access to both electricity a

90、nd natural gas supply. Nonetheless, Cameron LNG is now up and running with no permanent damage of which we are aware. Source: LNG exports resume for Sabine Pass and Cameron terminals as another hurricane approaches. U.S. Energy Information Administration. Today in Energy. October 8, 2020. 7 Hurrican

91、e Laura Restoration Update 9/9/20 9:30 AM. Entergy Newsroom. 8 Source: U.S. Department of Energy. Office of Cybersecurity, Energy Security, and Energy Response. Hurricane Sally & Laura Situation Reports. 9LSU Center for Energy StudiesFor purposes of economic modeling, effects of the 2020 hurricanes

92、are short lived and have not materially affected companies decisions to make infrastructural investments in the Gulf Coast region. Electricity infrastructure has largely been restored. 1.4 What a Biden Presidency Could Mean for the Energy IndustryAt the time of this writing, the U.S. has undergone a

93、 presidential election, but the final outcome is not yet known. This election was particularly unique in that presidential candidate Biden made history as the first nominee for president from a major party in modern U.S. history to propose the ban of new oil and gas permitting on public lands and wa

94、ters.9 Further, he proposed modifying royalties to account for climate costs. The Gulf Coast region will perhaps be the most impacted if these policies are enacted. What could this mean for the industry? Consider the two regulatory steps taken to drill for oil and gas in federal waters in the Gulf o

95、f Mexico.Leasing: When a company wants to drill for oil or natural gas in the federal waters of the Gulf of Mexico, it must first obtain a lease. Federal waters are beyond three miles from the Louisiana, Mississippi, and Alabama shorelines and nine miles from the Texas shoreline. The Bureau of Ocean

96、 Energy Management (BOEM), part of the U.S. Department of the Interior, conducts lease sales. Companies bid on lease tracts and the winner of those bids is awarded the lease in exchange for a payment that is determined by the result of the auction. This payment is called a “bonus” payment. Permittin

97、g: Once a lease is obtained, the private company will next have to obtain a permit to drill a well from the Bureau of Safety and Environmental Enforcement (BSEE). The permit to drill gives the operator approval to begin the process of drilling the well and requires the operator to show that they wil

98、l meet environmental and safety regulations. Once the well is drilled and oil and natural gas is sold to the market, the operator will then pay the federal government royalties. According to Joe Bidens plan for climate change, there are two changes to this process. First, his plan calls to ban new o

99、il and gas permitting on public lands and waters, which would include the Gulf of Mexico. Second, the plan calls for the modification of royalties to account for climate costs. For perspective, royalties currently range from about 12 to 20 percent, depending on a number of factors. While modificatio

100、n of royalties could impact the economics of offshore drilling, because compa-nies bid based on the expected economics, this would likely cost the federal government money in up-front bonus payments. The net effect of this is an empirical question that the GCEO will not address directly. But, the ef

101、fect of an outright ban on new permitting would have a clear negative effect on the offshore industry. A few things would likely occur if this policy were enacted as stated. First, there would likely be some drilling over the next several years, as companies that have already received permits would

102、presumably be able to drill these wells. But nonetheless, this would slow drilling. A recent Wood Mackenzie report considers four scenarios of what the Biden policy could entail. It is simply not possi-ble to know which, if any, of these scenarios will actually be enacted.10 9 The Biden Plan for a C

103、lean Energy Revolution and Environmental Justice. 10 What could a Biden administration mean for the U.S. GoM and Alaska? July 2020. Wood Mackenzie.10Gulf Coast Energy Outlook 2021Therefore, for modeling purposes, GCEO will assume that a Biden policy of banning permits offshore will not go into effec

104、t, at least over the forecast horizon. Incorporating such information into the forecast modeling would require specifics of the policy change and timing of these changes. Consistent with forecasting methodology in prior year GCEOs, proposed policy changes will not be incorporated into forecasts unti

105、l the policy change is actu-ally enacted. In other words, a business-as-usual assumption with regard to offshore leasing will be considered. In the event that a ban is swiftly implemented, forecasts are likely to be too optimistic. 2. Crude Oil and Natural Gas Production and Prices2.1 Recent Market

106、Trends: ProductionThe Shale revolution started to manifest itself in U.S. natural gas supplies in 2005 and has dramat-ically changed the fortunes of U.S. energy companies across almost every sector. That revolution continues in both crude oil and natural gas supplies, both of which continued to marc

107、h upwards, breaking production records from decades long since passed, until growth was abruptly interrupted with the outbreak of COVID-19 globally. Figure 1 shows that 2019 marked the highest level of U.S. crude oil and natural gas production on record, averaging 12.3 million barrels per day (MMBbl

108、/d) of oil and 112 billion cubic feet per day (Bcf/d) of natural gas. As we will show later, a large share of this U.S. crude oil and natural gas production increase comes from the Gulf Coast region. But, also highlighted in Figure 1, both oil and natural gas production declined precipitously in res

109、ponse to COVID-19. Figure 1: U.S. crude oil and natural gas production20406080100120140Natural Gas Production (Bcf/d)2468101214Crude Production (MMBbl/d)198019851990199520002005201020152020YearCrude ProductionGas ProductionSource: U.S. Energy Information Administration. Petroleum & Other Liquids. Cr

110、ude Oil Production. Natural Gas Gross Withdrawals. 11LSU Center for Energy StudiesFor perspective, Table 2 shows U.S. crude oil and natural gas production alongside the percent change from the same month in the prior year for each month post the COVID-19-induced slow-down. In March, U.S. oil product

111、ion was at 12.7 MMBbl/d, or 6.7 percent above the level of production in March of 2019. By May of 2020, production fell to 10.0 MMBbl/d, a drop of 17.6 percent relative to the May of 2019.11 U.S. oil production reached its bottom in May, and as of July has rebounded to 11 MMBbl/d, but still 7.1 perc

112、ent below production in the same month the prior year. Recently released August data shows that production once again fell in August to 10.6 MMBbl/d, almost 15 percent below the prior years August. On an annualized basis, U.S. oil production is currently down 4 percent from 2019. Natural gas product

113、ion, also shown in Table 2, experienced a similar pattern. In March of 2020, U.S. natural gas production was at 116.9 Bcf/d, or 5 percent above its March 2019 level. Natural gas production bottomed out in June at 106.0 Bcf/d, or 2.5 percent below the same month in the prior year. In the most recent

114、month, August, production is 2.2 percent below its August 2019 level. On an annualized basis, natural gas production is still up 1.5 percent relative to 2019. Thus, while both oil and natural gas production have been impacted, COVID-19s impact on oil has been larger on a percentage basis. In prepara

115、tion for the GCEO, one of the questions asked to many across the upstream industry was the extent to which these production reductions were due to (1) operational issues directly related to safely operating with COVID-19 and/or (2) market price and demand reductions.In terms of operational response,

116、 industry representatives have told us that rapid testing has been key, especially for offshore oil operations, where workers are confined to relatively close quar-ters while offshore. Companies servicing offshore operations revealed they would test workers for COVID-19 before going offshore, tempor

117、arily quarantine while waiting for test results, and then keep workers offshore for 28 days, in lieu of the standard 14 days.12 With proper planning, test results could be received within approximately three to four hours. With these precautions in place, we are aware of no offshore platforms that w

118、ere shut down due to COVID-19. As compared to offshore operations, onshore oil and gas operations by their very nature have been able to implement social distancing more easily. Thus, GCEO will take the broad view that reduc-tions in oil and natural gas production have been, in essence entirely, due

119、 to a demand shock and the resulting price reduction. Any effects of COVID-19 on the operations themselves, while costly for companies financially, have been manageable logistically. 11Production numbers monthly averages. Where not specified, all references to production will be monthly averages. 12

120、Instead of working 14 days on with 14 days off, now workers are working 28 days on with the subsequent 28 days off. 12Gulf Coast Energy Outlook 2021Table 2: COVID-19 impacts on U.S. crude oil and natural gas productionUnited StatesGulf CoastGulf Coast % of US.Prod.Percent ChangeProd.Percent ChangePa

121、nel A: Crude Oil (MMBbl/d)March12.76.7%7.58.0%59.2%April 12.0-1.07.21.860.2%May10.0-17.66.1-13.761.1%June10.4-13.66.3-10.560.6%July11.0-7.16.5-3.759.5%August10.6-14.96.0-18.456.9%Year to Date11.5-4.0%6.9-2.3%59.4%Panel B: Natural Gas (Bcf/d)March116.95.0%41.95.0%35.9%April 110.71.439.41.235.6%May108

122、.2-3.837.9-7.135.0%June106.0-2.537.5-5.535.3%July111.3-0.539.0-4.735.1%August111.2-2.238.7-8.534.9%Year to Date111.51.5%39.5-0.6%35.4%Source: U.S. Energy Information Adminstration. Petroleum & Other Liquids. Crude Oil Production. Natural Gas Gross Withdrawals. Note: Percent change represents a perce

123、nt change from the same month in the prior yearFigure 2 underscores the drilling reduction associated with the global pandemic. In December, Baker Hughes reported 804 rigs running in the U.S. Consistent with what was reported and forecasted in last years GCEO, rig counts were declining modestly thro

124、ughout 2019 and through the pre-COVID-19 beginning of 2020. But what was not predicted in last years GCEO was the precipitous drop asso-ciated with the COVID-19 pandemic. In August of 2020, the most recent month of data available at the time of this writing, rig counts as reported by Baker Hughes ar

125、e at 250, a 73 percent decline rela-tive to August of 2019. Unsurprisingly, this rig count drop has mirrored the drop in the West Texas Intermediate Spot price. Notably, though, while the oil price has rebounded from its low of $17 in April, rig counts have continued to decline each month.13LSU Cent

126、er for Energy StudiesFigure 2: U.S. crude oil prices and rig count$0$30$60$90$120$150WTI Spot Price ($/Bbl)040080012001,6002,000Rig Count2008201020122014201620182020YearRig CountsWTI Spot PriceSource: U.S. Energy Information Administration. West Texas Intermediate Spot Price. Baker Hughes Rotary Rig

127、 Counts.Figure 3 illustrates the rig activity in the seven major U.S. shale plays, as defined by EIAs Drilling Productivity Reports. As reported in last years GCEO, the Permian basin has been the predominant shale play in the U.S., accounting for approximately 46 percent of the rig counts in the U.S

128、. in 2019. But the Permian basin has also seen the largest reduction in rig counts, losing almost 315 rigs (72 percent) in August of 2020 compared to August of 2019. Remarkably, over half of the reduction in rig counts nationally have come from the Permian Basin. While rig counts have likely reached

129、 near their bottom, GCEO is not anticipating a significant increase in drilling activity over the next year. Figure 3: Rig counts in major shale basins03006009001,2001,500Rig Count2008201020122014201620182020YearPermianNiobraraHaynesvilleEagle FordBakkenAppalachiaAnadarkoSource: U.S. Energy Informat

130、ion Administration. Drilling Productivity Reports14Gulf Coast Energy Outlook 20212.2 Recent Regional Trends: Crude Oil and Natural Gas ProductionAs a corollary to Figure 1, Figure 4 illustrate regional (PADD 3) crude oil and natural gas production in response to COVID-19. Referring to Table 2, a com

131、parison of total U.S. oil and natural gas production changes in response to COVID-19 to the Gulf Coast region is provided. A few notable observations are as follows. Figure 4: Gulf Coast crude oil and natural gas production01020304050Gas Production (Bcf/d)0246810Oil Production (MMBbl/d)2006200820102

132、0122014201620182020YearCrude OilNatural GasSource: U.S. Energy Information Administration. Petroleum & Other Liquids. Crude Oil Production. Natural Gas Gross Withdrawals. First, examining oil production, the Gulf Coast region, on a percentage basis, experienced both a slower and shallower response c

133、ompared to the U.S. percentage change. While Gulf Coast oil production declined between March and April, the regions production was still 1.8 percent above April of 2019. By May of 2020, Gulf Coast oil production was down 13.7 percent from the prior May, compared to 17.6 percent for the entire U.S.

134、As a result, the share of U.S. oil production from the Gulf Coast region increased from approximately 59.2 percent to 61.1 percent in just two months during the pandemic. In the most recent month of data, August, Gulf Coast crude oil production was down 18.4 percent from the prior August, compared t

135、o 14.9 percent for the U.S. On an annualized basis, Gulf Coast crude oil production is down 2.3 percent compared to 2019. Interestingly, comparison of natural gas production nationally to the Gulf Coast region reveals a different story. Gulf Coast natural gas production declined by 7.1 percent in Ma

136、y of 2020 relative to May of 2019, compared to 3.8 percent for the U.S. In the most recent month of data available, August, Gulf Coast natural gas production is still 8.5 percent below August 2019 production, compared to 2.2 percent for the U.S. as a whole. On an annualized basis, Gulf Coast natural

137、 gas production has been down 0.6 percent compared to up 1.5 percent nationally. Notably, the winter heating season has yet to come. 15LSU Center for Energy Studies2.3 Recent Trends: Commodity PricingFigure 5, like prior year GCEOs, highlights three different natural gas pricing epochs: (1) the peri

138、od spanning the 1990s; (2) the period starting with natural gas supply/pricing crisis of the 2000s; and (3) post-recession period to current. These epochs differ in both the level of prices and the variabil-ity in prices.13 Unsurprisingly, the effect of COVID-19 has been prices that are on the lower

139、 range of even this lower price epoch. As will be highlighted throughout the report, GCEO believes that as the COVID-19 pandemic gradually subsides, natural gas prices will continue within this third epoch of relatively low prices and low variability. Figure 5: Historical inflation-adjusted natural

140、gas price$0$3$6$9$12$15$18Henry Hub Price - ($/MMBtu)1993199619992002200520082011201420172020YearHenry Hub Spot PriceAverage PricePlus 1 SDMinus 1 SD: U.S. Energy Information Administration. Henry Hub Natural Gas Spot Price. Inflation adjustment based on U.S. Consumer Price Index sources from the Bu

141、reau of Labor Statistics. Figure 6 provides a comparable analysis for crude oil pricing, underscoring again the dramatically reduced volatility that current period prices are experiencing relative to past pricing epochs. Pre COVID-19, oil prices were in the middle of the range of this third epoch an

142、d consistent with the outlook provided in last years GCEO. In response to COVID-19, oil prices plummeted precipitously, bottoming out at a monthly average of less than $17 per barrel in April.13Variability is shown as the standard deviation in the change in average monthly prices. 16Gulf Coast Energ

143、y Outlook 2021Figure 6: Historic inflation-adjusted oil prices$0$20$40$60$80$100$120$140$160WTI Price - ($/Bbl)198819921996200020042008201220162020YearWTI Spot PriceAverage PricePlus 1 SDMinus 1 SDSource: U.S. Energy Information Administration. West Texas Intermediate Spot Price. Inflation adjustmen

144、t based on U.S. Consumer Price Index sources from the Bureau of Labor Statistics. 2.3.1 COVID-19 impacts on oil pricesOn April 20, 2020, the WTI spot prices closed at -36.98 per barrel. A timeline of relevant dates and events describing oil markets since the beginning of 2020 is shown in Table 3. Tw

145、o pieces of infor-mation are given for each date; (1) the relevant event; and (2) the West Texas Intermediate (WTI) spot price per barrel as reported by the EIA on that date. As will be shown, it was a convergence of both supply (OPEC) and demand (COVID-19) shocks and unfortunate timing that created

146、 such unprece-dented short-lived price swings.17LSU Center for Energy StudiesTable 3: Oil prices and relevant eventsDateEventWTI PriceThursday, Jan. 2First trading day of 2020$61.17Wednesday, March 4The day before OEPC+ meeting$46.78Monday, March, 9OPEC+ fails to reach agreement on March 5-6 meeting

147、$31.05 Wednesday, March 11COVID-19 declared a pandemic by World Health Organization. U.S. Presidential Proclamation 9993 bans entry into US from over 25 countries$33.13 Friday, March 13National emergency declared in the United States$31.72 Saturday, March 14Presidential Proclamation 9994: Bans entry

148、 from Britain or Ireland.$28.96 Thursday, April 9OPEC+ agrees to 10mbd production cuts to begin on May 1st$22.90 Monday, April 20Day before May WTI NYMEX close-$36.98Friday, May 1OPEC+ production cuts begin$19.72 Monday May 18WTI reaches $30 for first time since crash$31.83 Monday, June 22WTI reache

149、s $40 for first time since crash$40.60 Source: Authors research. All dates in 2020. For weekend dates, the WTI prices on the following Monday is listed.On the first trading day of the year, oil was trading at $61 per barrel; a level that was about $10 per barrel higher than what futures markets were

150、 forecasting at the time of the GCEOs release last year (September 2019). Supply and demand were approximately in balance and futures markets were anticipating prices to remain steady into the foreseeable future. A growing global economy and other generally bullish factors at the time were moving oi

151、l demand on a steady upward trajectory. U.S. oil production was at an all-time high of 12.8 million barrels per day in December of 2019. Market signals were displaying confi-dence that production would be capable of meeting the demand growth at current prices.But beginning in the first two months of

152、 2020, concerns of COVID-19 spreading to countries outside of China began to translate into forecasts that oil demand would weaken, putting downward pressure on prices. By March 4, the day before an OPEC+ meeting the price of oil was at $47 per barrel. While lower than the onset of the year, supply

153、and demand were approximately in balance at this price point.In response to the pandemic-induced global slowdown, OPEC+ was considering output reductions. Specifically, Saudi Arabia was recommending reducing output by 1.5 million barrels per day with the hopes of raising prices closer to those obser

154、ved in the earlier part of the year. But Russia was not on boardand by the time the meeting ended on Friday March 6, there was no agreement in place. Upon a deal not materializing, by April 1, all OPEC countries (and Russia) were free to produce as much oil as they chose. The following Monday (March

155、 9), oil prices plummeted to $31 per barrel, a reduction of 33 percent.Further exacerbating these factors, the COVID-19 pandemic began to spread rapidly. On March 11, the World Health Organization (WHO) declared COVID-19 as a pandemic. On the same day, President 18Gulf Coast Energy Outlook 2021Trump

156、 signed a presidential proclamation (9993) banning entry into the U.S. from more than 25 countries. On March 13, a national emergency was declared in the U.S., and the next day (March 14) President Trump signed another presidential proclamation (9994) banning entry into the United States from Britai

157、n and Ireland. Over the next few weeks, individual U.S. states and many countries around the world began implementing stay-at-home orders and other similar policies, significantly reducing economic activity and therefore transportation. For perspective, on March 22, Governor John Bel Edwards issued

158、a stay-at-home order for Louisiana. By the time Louisianas stay-at-home order was implemented, oil prices were already below $25 per barrel.OPEC was under enormous pressure to make a deal happen; what started with a price drop in response to a failed OPEC agreement quickly spiraled out of control as

159、 the global pandemic began to rapidly accelerate. So, on April 9, just one month after the failed agreement, OPEC agreed to historic production cuts by an unprecedented 10 million barrels per day. Recall, the initial agreement that fell through just one month earlier was for just 1.5 million barrels

160、 per day. But in some ways, the damage was already done. As global demand received a sudden and dramatic reduction, oil produc-tion cuts could not happen fast enough, and on April 20, the WTI NYMEX futures closed at a negative price for the first time in history: -$37 per barrel.It is important to n

161、ote that this negative price was a hub price in Cushing, Oklahoma, where physical deliverability was required, and a relatively small volume of oil traded at this price. For comparison, the Brent price that does not have a physical deliverability requirement bottomed at about $9 per barrel. This is

162、more indicative of the actual prices received at the wellhead. Nonetheless, these low prices were unprecedented.By May 1, the OPEC+ production cuts hit the market (that were agreed to in the April meeting) and by that time prices had risen to about $20 per barrel. By mid-May prices exceeded $30 per

163、barrel for the first time since the crash, and by mid-June exceeded the $40 threshold, where prices have more or less held steady since.2.4 Outlook: Commodity PricingFutures markets are indicating upward pressure on both crude oil and natural gas prices as global demand rebounds from COVID-19, follo

164、wed by years of relatively flat prices in real terms (i.e. infla-tion adjusted) over the remainder of the forecast horizon. Figure 7 and Figure 8 show current futures prices for oil and natural gas alongside the futures prices from the last two years GCEOs. Examination of not only the current future

165、s price but also how expectation has changed is instructive for under-standing market trends. Figure 7 shows the crude oil futures prices. For the past two years, GCEO has shown oil futures in backwardationmeaning that prices were expected to fall in the future. And in both years, the futures market

166、s were successful in predicting declining prices, but in both instances the magnitude of decline was larger than what markets were anticipating. In contrast, today the futures market for oil is in contangomeaning that prices are expected to increase in the future. This is logical, given the precipit

167、ous demand reduction for transportation, and therefore oil, in light of the global pandemic. As transportation returns (and therefore demand), prices are expected to increase. What is perhaps more interesting is that prices are not anticipated to reach pre-COVID-19 predicted levels until 2030. 19LSU

168、 Center for Energy StudiesIn other words, futures markets are anticipating that there will be enough supply to meet global demand at between $40 and $55 per barrel for the next decade. Figure 7: Crude oil price outlook$0$10$20$30$40$50$60$70$80$90$100WTI Spot Price ($/Bbl)201520162017201820192020202

169、1202220232024202520262027202820292030DateHistorical201820192020Source: New York Mercantile Exchanged West Texas Intermediate Futures Price. Sources from S&P Global Market Intelligence. Most recent future price as of October 30, 2020. Figure 8 shows the corollary for natural gas futures prices. Inter

170、estingly, while natural gas prices are currently lower than markets predicted this time last year, natural gas prices are expected to be higher in 2021 and 2022 than futures market suggested over the past two years. This is likely due to at least two factors. First, as will be highlighted later, dem

171、and for natural gas has been less impacted by COVID-19 than oil due to the simple fact that oil is primarily a transportation fuel. But second, on the supply side, natural gas produced from oil wells (i.e. associated natural gas) production also has declined. This is expected to put upward pressure

172、on natural gas prices over the next two years. Nonetheless, comparisons to Figure 5 reveal that natural gas prices are anticipated to continue in the third low price and low variability epoch.Although low oil and natural gas prices can create challenges for the upstream oil and gas extraction and se

173、rvices sectors, the longer-term trajectory that these prices remain low is relatively good news for the continued investment in refining, chemical manufacturing, and energy export in the Gulf Coast region, as will be discussed in Section 5. 20Gulf Coast Energy Outlook 2021Figure 8: Natural gas price

174、 outlook$0$1$2$3$4$5$6Henry Hub Spot Price ($/MMBtu)2015201620172018201920202021202220232024202520262027202820292030DateHistorical201820192020Source: New York Mercantile Exchanged Henry Hub Futures Price. Sources from S&P Global Market Intelligence. Most recent future price as of October 30, 2020. 2

175、.5 Outlook: Crude Oil and Natural Gas ProductionNext, Figure 9 and Figure 10 show oil and natural gas production forecasts based on the Enverus ProdCast model. This is the same model used in production forecasting in past GCEOs. Prior year GCEO readers will recall that each year U.S. oil and natural

176、 gas production have come in higher than expected, and the ProdCast model has upgraded its production forecasts in response each year. In last years GCEO, ProdCast was forecasting that total U.S. oil production would increase to approx-imately 18 million barrels per day by 2030, with more than 12 mi

177、llion barrels a day coming from the Gulf Coast region. Natural gas production was forecast to increase to 131 Bcf/d by 2030. ProdCasts outlook has changed dramatically this year in light of COVID-19. On an annualized basis, U.S. oil production is anticipated to fall from its 2019 peak of 12.2 millio

178、n barrels per day to 10.71 million barrels per day in 2023. Thus, ProdCast is estimating that U.S. oil production will continue to decline over the next approximately three years, as oil prices are anticipated to rebound slowly. Gulf Coast oil production is anticipated to decline from its high of 8.

179、0 million barrels per day in 2019 to 7.6 million barrels per day in 2023. Thus, both U.S. and Gulf Coast oil production are anticipated to decline over the next three years. 21LSU Center for Energy StudiesFigure 9: Crude oil production forecast and Gulf Coast share of U.S. production02468101214Crude

180、 Oil Production (MMBbl/d)0%20%40%60%80%100%Share of Total(%)2006200820102012201420162018202020222024202620282030YearShare of TotalGulf CoastTotal U.S.Rest of U.S.Source: Enverus ProdCastProdCast has similar predictions for natural gas production, as shown in Figure 10. U.S. natural gas production is

181、 anticipated to drop from its 2019 high annualized average of 102.9 Bcf/d to 93.5 Bcf/d in 2023. Gulf Coast natural gas production is anticipated to decline from 44.3 Bcf/d to 40.4 Bcf/d over this same time horizon (2019 to 2023). The ProdCast model production forecasts will be one of the inputs use

182、d to forecast upstream oil and gas employment presented in Section 8. Figure 10: Natural gas production forecast and Gulf Coast share of U.S. production 0255075100125Natural Gas Production (Bcf/d)0%20%40%60%80%100%Share of Total(%)2006200820102012201420162018202020222024202620282030YearShare of Tota

183、lGulf CoastTotal U.S.Rest of U.S.Source: Enverus ProdCast22Gulf Coast Energy Outlook 20213 Pipeline Activity3.1 Recent TrendsSpatial differences in prices of hydrocarbons between areas is the market signal that drives pipeline development. If prices at “Point A” are higher than “Point B” at a given

184、time, this provides an opportu-nity for a firm to move hydrocarbons from “Point A” to “Point B” and earn a profit doing so. Economists and traders call this phenomenon spatial arbitrage. As in prior year GCEOs, we highlight price differ-entials that represent pipeline constraints in both oil and nat

185、ural gas markets. First, Figure 11 investigates the extent to which shipping constraints can explain the difference in prices between West Texas Intermediate (WTI) relative to Louisiana Light Sweet (LLS). Three vertical lines are drawn. The first vertical line is January of 2007, the date at which E

186、IA began tracking crude oil and natural gas unconventional production in its Drilling Productivity Reports. The second line is May 2012, when the Seaway pipeline was reversed. Seaway initially moved crude from Freeport, Texas, on the Gulf Coast, to Cushing, Oklahoma, where WTI is priced. After Seawa

187、y was reversed, the pipe-line carried crude produced in the mid-continent to Gulf Coast refineries. This line divides a regime of increasing internal shipping constraints from a regime where those constraints were relieved. The third line is December 2015, when the U.S. government lifted the export

188、ban that constrained the sale of crude oil overseas.The top Panel of Figure 11 shows the share of crude oil transported from PADD 2 and PADD 4 in the mid-continent (states in the Rocky Mountain and Midwestern regions) to PADD 3 in the Gulf Coast. From 1990 to 2007, almost all crude was transported f

189、rom the mid-continent to the Gulf Coast via pipeline. Shippers used pipelines because rail and tanker were more expensive on the margin. During this time WTI and LLS moved in lockstep. In fact, by April 2012, more than half of the crude shipped from the mid-continent to the Gulf Coast went via high-

190、cost barge and rail. Almost immedi-ately after the reversal of the Seaway pipeline, this trend stopped, and the share of crude shipped via pipeline began to recover.The LLS-WTI premium closely mirrors changes in the mode of transport over the 2007-2015 time period. This close correlation between shi

191、pping and prices can explain between half and three-quar-ters of the movement in relative prices. Empirical research has investigated whether changes in the composition of refining as captured by API gravity of crude inputs can explain these differentials.14 Evidence of shipping constraints, but not

192、 refining constraints, is observed.This analysis provides strong evidence that shipping constraints between the mid-continent and Gulf Coast were the culprit for the price discount. Last year, GCEO identified nine crude oil pipeline projects in the Gulf Coast region, either under construction or ann

193、ounced, that were expected to be completed by the end of 2021. Based on conversations with industry, pipelines that are currently not under construction likely will not begin construction, due to the precipitous drop in oil production associated with COVID-19. The good news is that at the time of th

194、is writing, crude markets are approx-imately in balance, with a slight premium for LLS. We anticipate this few dollar premium will persist over the forecast horizon and approximately 95 percent of crude shipped from the mid-continent 14Agerton & Upton, 2019. Decomposing Crude Price Differentials: Do

195、mestic Shipping Constraints or the Crude Oil Export Ban? The Energy Journal, Vol. 40, No. 3.23LSU Center for Energy Studiesto the Gulf Coast will continue to come from pipelines. Due to the current oil price environment, sudden increases in oil production from new areas creating the need for barge a

196、nd rail shipments are unlikely. Figure 11: PADD 3 crude oil movements by transportation type0%25%50%75%100%1990199520002005201020152020TankerRailPipelinePADD 2 & PADD 4 Crude Oil Movements to PADD 3-$30-$20-$100$101990199520002005201020152020YearWTI - LLS Premium ($/Bbl)Source: U.S. Energy Informati

197、on Administration, West Texas Intermediate Spot Price and Light Louisiana Sweet First Purchase Price. Movements between PADD Districts, by pipeline, by tanker & barge, and by railShifting focus to natural gas midstream constraints, the relevant constraint is not between the mid-con-tinent and the Gu

198、lf Coast region (as has been the case for oil), but instead moving natural gas out of the Permian Basin. Specifically, there are three types of transportation-oriented constraints arising in the Permian region. The first constraint rests with the limited in-field gathering system capabilities in som

199、e areas. The second constraint rests with limited gas processing, while the third constraint rests with the need for additional longer-haul transmission pipeline capacity to move natural gas out of the Permian to Gulf Coast markets.15Collectively, these constraints can lead to two phenomena (1) well

200、head flaring of natural gas and (2) inter-region natural gas pricing discounts, as seen in the Henry Hub/Waha pricing. Figure 12 illustrates both of these trends focusing on the Permian basin and comparing Henry Hub and Waha natural gas prices. Pre-2018 these two hubs traded at very similar prices w

201、ith Henry Hub receiving a small premium, on average, due to its proximity to many large sources of natural gas demand. Also, flar-ing in the Permian basin was consistently less than 0.1 bcf/d; however, as Permian basin production 15For a detailed discussion of the value chain moving natural gas from

202、 wellhead to market, see recent research. Agerton, Gilbert & Upton, 2020. The Economics of Natural Gas Flaring in U.S. Shale: An Agenda for Research and Policy. Rice Universitys Baker Institute for Public Policy Working Paper. USAEE Working Paper No. 20-460.24Gulf Coast Energy Outlook 2021ramped up,

203、 markets began to experience the emergence of significant Waha price discounts rela-tive to Henry Hub. On some days, natural gas at Waha has traded at negative prices. These price discounts moved in lock step with flaring in the Permian, and at its peak the Permian basin was flaring more than one ha

204、lf billion cubic feet of natural gas per day. According to EIA, in 2019 over 538 billion cubic feet of natural gas was flared or vented in the United States. To put this into perspective, that represented about 1.3 percent of U.S. gas production.16 If the flared volume of natural gas was instead use

205、d to generate electricity, it would have been enough to power 6.1 million households for a year.17Last years GCEO predicted that pipeline investments would alleviate much of this constraint, and over the coming year Waha was likely to converge to Henry Hub. Interestingly, while this has begun, it ha

206、s not yet fully materialized. As also shown in Figure 12, Waha prices have continued to be vola-tile relative to Henry Hub and have had significant discounts on average.Figure 12: Henry Hub and Waha natural gas prices0.1.2.3.4.5.6Bcf/d201020122014201620182020DelawareMidlandCentralVolume Flared-$1$0$

207、1$2$3Price Difference201020122014201620182020YearHenry Hub - Waha Hub (USD/MMBtu)Source: Texas Railroad Commission. 3.2 Pipeline OutlookFigure 13 shows the natural gas pipeline transmission capacity additions scheduled in 2020 and then over the next three years.18 These capacity additions are restri

208、cted to just larger transmission pipe-lines and do not include local gathering pipeline additions that may arise over the same time period. In 2020, to date there have been 1.7 billion cubic feet (bcf) of new pipelines completed, with an additional 4 bcf announced to be completed by the end of the y

209、ear. In total, there are currently 12.6 bcf/d of pipelines currently under construction, with another 40 bcf of projects included in the list. 16Source: Natural Gas Gross Withdrawals and Production. Gross Withdrawals compared to Vented and Flared in Annual-Million Cubic Feet. Accessed Oct 2020. 17Se

210、e Agerton, Gilbert & Upton (2020) for more discussion and calculations. 18These include laterals, expansions, reversals and new pipelines. 25LSU Center for Energy StudiesDiscussions with industry have suggested that many of these projects are likely to be delayed while the effects of COVID-19 on nat

211、ural gas production bear out. Nonetheless, recent reports have suggested that the completion of these pipelines that are currently under construction will improve natural gas pricing at the Waha hub dramatically and create an influx of supply to the Texas Gulf Coast.19 Thus, while both the Waha disc

212、ount to Henry Hub and flaring have been subdued over this past year, as shown in Figure 12, GCEO expects for this trend to continue. Over the next two years, Waha will likely be trading in lock step with Henry Hub, barring another unexpected event. Figure 13: Gulf Coast natural gas pipeline capacity

213、 outlook0510152025Capacity (Bcf)2020202120222023Year In Service DateCompletedApprovedAppliedAnnouncedConstructionSource: U.S. Energy Information Administration. U.S. natural gas pipeline projects.Note: Includes laterals, expansions, reversals and new pipelines. 4. Power Sector4.1 Recent Trends: Load

214、 GrowthThis novel section of the GCEO will focus on the electricity sector. Note that short-term impacts of COVID-19 on electricity usage will be discussed in Section 7. This section focuses on longer trends. Figure 14 shows total electricity usage in the United States and the Gulf Coast Region. Ana

215、lysis reveals a few notable items. First, electricity demand has been relatively flat in the United States over the past decade. For instance, comparing total sales in MWhs to all customers in the United States 19Some Beach New Permian-to-Gulf Gas Pipelines to Shake up Regional Flows and Basis. 10/1

216、1/2020. Jason Ferguson. RBN Energy LLC. 26Gulf Coast Energy Outlook 2021in 2007, (the highest load year before the Great Recession) to the most recent full year available (2019) shows that load was actually slightly lower in 2019 than 2007. Analyzing the same time frame (i.e. 2007 to 2019) for the G

217、ulf Coast reveals a different trend, namely increasing load over this time period. Specifically, electricity demand increased by 13.2 percent. As a result, the share of electricity usage from Gulf Coast states increased from 15 percent to 17 percent over this time period. Figure 14: U.S. and Gulf Co

218、ast electricity sales 10%12%14%16%18%20%22%Share of Total05001,0001,5002,0002,5003,0003,5004,000GWh (thousands)1990199520002005201020152019yearUnited StatesGulf CoastPercentSource: U.S. Energy Information Administration. Retail sales of electricity to ultimate consumers.Next, Figure 15 focuses on el

219、ectricity sales to industrial customers, again comparing the U.S. and Gulf Coast region. Similar to total U.S. electricity demand, industrial demand was down about 7 percent over the 2007 to 2019 time period, while Gulf Coast industrial demand was up 6.7 percent. As a result, the share of national i

220、ndustrial demand coming from the Gulf Coast region has increased over this time period. This has especially been apparent since 2013 as industrial construction projects came online utilizing the prolific natural gas resources available from shale production discussed in Section 2.27LSU Center for En

221、ergy StudiesFigure 15: U.S. and Gulf Coast industrial electricity sales10%12%14%16%18%20%22%Share of Total02505007501,0001,2501,500GWh (thousands)1990199520002005201020152019yearUnited StatesGulf CoastPercentSource: U.S. Energy Information Administration. Retail sales of electricity to ultimate cons

222、umers.4.2 Recent Trends: Carbon EmissionsNext, carbon dioxide emissions for the United States and Gulf Coast region are shown in Figure 16. Since 2013, U.S. and Gulf Coast total carbon dioxide emissions from power generation have been down 13.8 percent and 10.4 percent, respectively. As a result, th

223、e Gulf Coasts share of total U.S. carbon emissions has remained at approximately 19 percent. While both U.S. and Gulf Coast emis-sions have trended downward in total, as shown in Figure 14, Gulf Coast electricity generation has increased its share of total U.S. electricity generation over this time

224、period. Thus, while not shown here, the carbon dioxide emissions per MWh of electricity produced has declined by almost exactly 16 percent in both the U.S. and Gulf Coast region. In 2018, the most recent year shown, the Gulf Coast carbon intensity of electricity generation was about 2.7 percent high

225、er than the U.S.28Gulf Coast Energy Outlook 2021Figure 16: U.S. and Gulf Coast carbon dioxide emissions from electricity generation15%16%17%18%19%20%21%22%23%24%25%Share of Emissions02505007501,0001,2501,5001,7502,0002,2502,500CO 2 Emissions(Thousand Metric Tons)2013201420152016201720182019YearUnite

226、d StatesGulf CoastGulf Coast ShareSource: U.S. Energy Information Administration. Electricity. Emissions by plant and by Region. 4.3 Outlook: Capacity InvestmentNext, Figure 17 and Figure 18 show power generation capacity by fuel source for the U.S. and Gulf Coast region, respectively. Comparison of

227、 these figures reveals a few important insights.First, comparing the U.S. and Gulf Coast region, the generation mix is very different. The Gulf Coast has a higher concentration of natural gas capacity. In the most recent full year of data, 2019, natu-ral gas accounts for 58.9 percent and 45.0 percen

228、t in the Gulf Coast and U.S. regions, respectively. But second, natural gas capacity has grown in both the U.S. and Gulf Coast over the past decade. Since 2009, over 52 thousand GWs of natural gas capacity have been added to the grid nationally, with only 4.31 GWs of natural gas capacity added in th

229、e Gulf Coast. Third, renewable energy capac-ity (including hydro, solar and wind), accounts for 21.5 percent of capacity nationally in 2019, and 17.9 percent in the Gulf Coast.20 Finally, for both the U.S. and Gulf Coast, over 90 percent of the capacity growth over the next five years is anticipated

230、 to come from natural gas, solar and wind. 20Importantly, this is referring to renewable capacity, not energy. According to EIA, in 2019 15.7% of generation came from hydro, solar and wind. 29LSU Center for Energy StudiesFigure 17: U.S. power generation capacity and outlook05001,0001,500Plant Capaci

231、ty (GW)1995200020052010201520202025YearSolarWindWaterNuclearOtherCoalGasSource: S&P Global Market Intelligence, Historical and Future Power Plant CapacityFigure 18: Gulf Coast power generation capacity and outlook050100150200250300Plant Capacity (GW)1995200020052010201520202025YearSolarWindWaterNucl

232、earOtherCoalGasSource: S&P Global Market Intelligence, Historical and Future Power Plant Capacity30Gulf Coast Energy Outlook 20215. Energy Manufacturing Activity5.1 Recent TrendsThe Gulf Coast has been a major beneficiary of an exceptionally long, large, and sustained level of capital investment ded

233、icated to energy manufacturing activities and energy export infrastructure. These energy manufacturing investments assist in refining and transforming hydrocarbons into a variety of intermediate and final goods. Energy export infrastructure investments, on the other hand, facilitate the movement of

234、hydrocarbons produced in the prolific unconventional basins in the U.S. to various destinations around the world. Through commodity exports or final chemical products, these investments have propelled the U.S., and particularly the Gulf Coast, into a leadership position in global energy markets. Fig

235、ure 19: GOM energy manufacturing investments by stateSource: Center for Energy Studies (2020), authors construct from publicly reported data.As shown in Figure 19, since 2011, regional investment in both commodity and product exports has led to regional investment of $142 billion (through 2020), or

236、over $14 billion per year. The expected total through 2030 sums to $305 billion. The distribution of these capital investments across the Gulf Coast is almost exclusively weighted towards Louisiana and Texas, with historic investment split evenly between Louisiana ($71.6 billion, 51 percent) with th

237、e balance occurring in Texas ($69.8 billion, 49 percent).As shown in Figure 20, in terms of investment composition in dollar terms, most energy manufactur-ing and infrastructure investment has been concentrated in LNG export facilities. In fact, 60 percent of all regional capital investment comes fr

238、om LNG facility development. The dominance of LNG facil-ities as a share of total regional capital investment should come as no surprise given its relatively 31LSU Center for Energy Studieshigh per unit investment cost. A typical Gulf Coast energy manufacturing investment runs around $45 million, wh

239、ereas a typical LNG export facility investment has been $8-10 billion, on an average facil-ity basis (since 2011).Figure 20: GOM energy manufacturing investments by sectorSource: Center for Energy Studies (2020), authors construct from publicly available information. Both energy manufacturing and LN

240、G facility investment have been enabled by a number of positive factors that have aligned over the past decade: (1) low natural gas prices relative to crude oil prices; (2) low interest rates and low borrowing costs to finance capital intensive projects; (3) generally favor-able exchange rates that

241、have helped keep U.S. exports competitive; and (4) strong global economic growth, particularly in emerging markets in Asia.The trend in declining energy prices and their role in stimulating U.S. investment opportunities in energy manufacturing cannot be emphasized enough. Chemical industry productio

242、n in the U.S., and particularly along the Gulf Coast, utilizes natural gas-based feedstocks, particularly ethane, as their primary inputs. Chemical production in Europe and Asia, on the other hand, utilize crude-based feedstocks, particularly naphtha. U.S. and Gulf Coast chemical production (as does

243、 most regional energy manufacturing) becomes considerably more competitive when natural gas prices fall relative to crude oil prices, which has been the case for the better part of the past decade. Thus, it should come as no surprise that the bulk of all regional energy manufacturing investments aro

244、se and were completed during a time when the oil-to-gas price ratio (Figure 21) was in excess of 10.32Gulf Coast Energy Outlook 2021Figure 21: Oil-to-gas price ratioSource: U.S. Energy Information Administration. Ratio of West Texas Intermediate Crude Oil Spot Price ($/bbl) and Henry Hub Natural Gas

245、 Price ($/MMBtu). Forecast based on Annual Energy Outlook 2020.Last year, the 2020 GCEO forecast anticipated a slower capex growth in energy manufacturing and infrastructure. The slow-down was largely attributed to: (a) simple exhaustion from a decades worth of record investment growth; and (b) cons

246、iderable economic uncertainties due to trade related chal-lenges that were beginning to slow overall global economic growth, particularly economic growth in China. For instance, the 2020 GCEO anticipated total 2020 capex of $25.2 billion, with $12.3 billion being dedicated to LNG investments and $12

247、.9 in energy manufacturing. Further, the 2020 GCEO forecast that most of this regional investment would occur in Louisiana and of this amount, some 60 percent ($8.7 billion) would be dedicated to LNG export capacity, with the balance ($5.7 billion) being dedicated to energy manufacturing.However, th

248、e unanticipated COVID-19 pandemic of the past year has considerably changed the capi-tal investment profile of the region. Table 4 compares 2019 capital investment to that forecast in the 2020 GCEO and actual 2020 investment. Actual 2020 capital investment was down by as much as 21 percent ($5.2 bil

249、lion) relative to the prior GCEO forecast. 33LSU Center for Energy StudiesTable 4: GOM energy manufacturing investment, GCEO comparisonPeriodTexasLouisianaTotal GOMLNGNon-LNGLNGNon-LNGLNGNon-LNGTotal- (million $) -2019 $3,503 $ 5,126 $2,466 $ 2,075 $ 5,969 $7,201 $ 13,170 GCEO 2020 $3,660 $ 7,207 $

250、8,686 $ 5,683 $ 12,346 $ 12,890 $25,236 2020 Actual $3,416 $ 7,910 $ 5,445 $ 3,270 $ 8,861 $ 11,180 $ 20,041 These investment decreases should come as no surprise given the change in global economic performance, particularly after mandated stay-at-home orders throughout a good part of the indus-tria

251、lized world in early 2020. Most publicly traded companies, including large integrated energy and chemical companies, began to restrict cash flow and cancel/delay projects as the significance of the COVID-19-related downturn became apparent. Table 5 summarizes a survey conducted by interna-tional con

252、sultancy Wood Mackenzie, examining capital budget revisions as a result of COVID-19.Table 5: Chemical industry, revised capexCompanyCapex 2020Capex 2020Revised% Capex - (billion $) -ConocoPhillips 6.5-6.7 5.9 -11%Dow Inc 1.5 1.3 -17%Total S.A. 18.0 15.0 -17%Royal Dutch Shell 25.0 20.0 -20%Chevron Co

253、rporation 20.0 16.0 -20%Lyondell Bassell Industries N.V. 2.4 1.9 -21%Eastman Chemical Company 0.450-0.475 0.350-0.375 -22%Westlake Chemical Corp 0.675 0.525 -22%Dupont de Nemours 1.3 1.0 -23%Eni 8.0 6.0 -25%Enterprise Product Partners LP 3.75 2.5-3.0 -27%Eastman Chemical Company 0.450 0.325 -28%Targ

254、a Resources Corp 1.2 800-900 -29%Exxon Mobil Corp 33.0 23.0 -30%The Chemours Company 0.400 0.275 -31%EOG Resources 6.5 4.3-4.5 -32%Pembina Pipeline Corp 2.3 1.2 -43%Source: Galindo, Enrique. How are chemicals companies responding to the coronavirus blow? Wood Mackenzie. May 2020. 34Gulf Coast Energy

255、 Outlook 2021Many of the companies surveyed by Wood Mackenzie reported reducing 2020 capital expenditures by between 11 percent to 43 percent, with an average 2020 reduction, across all surveyed firms, of 25 percent.The industry contraction has been strongly visible in the utilization of facilities

256、that have seen exten-sive capacity expansion over the past decade. Figure 22, for instance, shows historic and recent trends in U.S. annual basic chemical production. Sector output in 2019, the year proceeding the pandemic, saw output rivaling the prior recent peaks set in 2018: Q2 of 115 million to

257、ns; however, the pandemic saw chemical sector output plummet to slightly over 80 million tons, a level not seen since the 2008-2009 recession.Figure 22: U.S. chemical industry production and capacitySource: Swift, K. U.S. Chemical Outlook. The Future of South Louisiana Industry 2020 Business Report

258、Power Breakfast. June 9, 2020.Note: Authors estimate from source. ACC is American Chemistry Council.An additional important takeaway from the above chart is the degree to which excess U.S. chemical industry capacity is burnt off as the worlds economy attempts to claw back from the considerable econo

259、mic contraction of 2020. Just in the U.S. alone, statistics suggest as much as 50 million tons of excess capacity, a level not seen since the last recession; however, interestingly, the excess U.S. chemical production capacity of 2008-2009 itself quickly evaporated as Asia and other developing econo

260、mies recovered from the last recession. Thus, there is some optimism this trend could occur over the next year.The pandemic was not the only challenge faced by the U.S. chemical sector. The 2020 GCEO high-lighted the considerable uncertainty created by Sino-U.S. trade disputes. Figure 23 underscores

261、 the anticipated weakness that these trade imbroglios have had on U.S. chemical industry exports. For instance, 2019 Gulf Coast chemical industry exports to China were down by as much as 25 percent 35LSU Center for Energy Studiesrelative to 2018. Gulf Coast chemical industry exports fell another 23

262、percent in early 2020 as the pandemic and the associated economic lock downs arose. While regional chemical industry exports to China have rebounded, they have only recovered to pre-pandemic levels, not those seen in 2018 before the trade disputes arose.Figure 23: Gulf Coast chemical exports to Chin

263、aSource: U.S. Census Bureau, Economic Indicators Division, USA Trade Online.Figure 24 provides additional evidence that the China-U.S. specific trade disputes undermined trade between the two countries, but that had limited impacts on Gulf Coast chemical industry trade else-where. Regional chemical

264、industry exports to the rest of the world, for instance, appear to have remained relatively constant, and at generally high levels, throughout 2019. Export volumes to the rest of the world, however, have fallen precipitously during the early part of 2020 and are yet to rebound.36Gulf Coast Energy Ou

265、tlook 2021Figure 24: Gulf Coast chemical exports to rest of worldSource: U.S. Census Bureau, Economic Indicators Division, USA Trade Online.5.2 Energy Manufacturing OutlookThe outlook for energy manufacturing over the next 24 months will be largely dependent upon the degree to which the global econo

266、my rebounds from the current pandemic. At years end 2020, there still remains a considerable degree of uncertainty about the staying power of the current pandemic and its lagging impacts on global economic activity. For instance, Figure 25 provides recent economic growth projections for major world

267、economies through 2024. The projections, developed by the Organization for Economic Co-operation and Development (OECD), show last years projected GDP growth compared to a very different picture today. The path to recovery is highly uncertain. Should a second wave of shutdowns be avoided, the OECD a

268、nticipates a six percent decrease in global GDP. A second wave however, with renewed lock-downs, would mean a further decline in world GDP of 7.6 percent. In either scenario, recovery will be slow. This does not bode well, at least in the near term, for regional chemical industry growth that is high

269、ly dependent upon global trade as an engine of economic growth.37LSU Center for Energy StudiesFigure 25: Collapse in output followed by a slow recoverySource: OECD Economic Outlook No.107, October 6, 2020.Second, as seen earlier in Figure 22, there is a considerable excess capacity overhang that the

270、 American Chemistry Council (ACC) believes will not be worked off until 2022. However, this fore-cast assumes a relatively quick “v-shaped” type of global economic recovery that is becoming increasingly more questionable. While the ACC anticipates a relatively quick convergence between production an

271、d capacity, the excess even in 2022 is larger than past years. For instance, the excess chemical production capacity for the 2015-to-2019 time period was around 12 percent (14.7 million tons), whereas excess capacity for the 2022-to-2024 time period is forecast to be around 20 percent (27.8 million

272、tons).Table 6 presents the 2021 GCEO baseline outlook for energy manufacturing and LNG facility devel-opment in the region. This baseline outlook, like the one included in last years GCEO, is based upon total investment announcements in the region and is broken down by investment type (LNG, non-LNG)

273、 and Gulf Coast state. None of these project announcements have been “scrubbed” or discounted in any way relative to their original announcements. In some instances, commercial oper-ation dates (CODs) have been moved to accommodate continued development on a time horizon consistent with the original

274、 announcement. Thus, this baseline can be thought of as a “book-end” of total energy related capex that could arise in the region through 2029.38Gulf Coast Energy Outlook 2021Table 6: Total GOM investment, all project announcementsYearTexasLouisianaOther GOMTotal GOMLNGNon-LNGLNGNon-LNGLNGNon-LNGLNG

275、Non-LNG- (million $) -2020 3,416 7,910 5,445 3,270 - - 8,861 11,180 2021 4,234 13,407 15,016 5,545 - - 19,250 18,953 2022 6,024 4,081 23,429 5,555 33 - 29,486 9,636 2023 6,755 253 25,255 2,142 1,321 - 33,331 2,395 2024 8,040 - 13,303 1,241 4,038 - 25,380 1,241 2025 3,905 - 3,126 434 2,394 - 9,425 43

276、4 2026 336 - 2,305 1,835 213 - 2,855 1,835 2027 - - 1,421 3,506 - - 1,421 3,506 2028 - - 412 2,785 - - 412 2,785 2029$- $- $ 29 $ 908 $- $- $ 29 $ 908 Total$ 32,710 $ 25,652 $ 89,741 $ 27,220 $ 8,000 $- $ 130,451 $ 52,872 The current baseline of energy manufacturing and LNG export facility investmen

277、ts is $183 billion or $18.3 million per year, on average. This total period investment is down relative to last years 2020 GCEO baseline of $195 billion. Most of the investment is tied to LNG export facilities (71 percent) with the balance in a variety of energy manufacturing projects. Most of the c

278、urrently announced projects are anticipated to occur in Louisiana ($117 billion or 64 percent) relative to Texas ($58 billion or 32 percent) and the rest of the GOM states ($8 billion or 4 percent).Table 7 presents the 2021 GCEO outlook for energy manufacturing and LNG export facility develop-ment.

279、This outlook differs from the “baseline” capital investment announcement provided above in that it removes projects that are unlikely to be developed in the near future given: (a) their already long development profile or failure over multiple development years to attain a final investment deci-sion

280、 (FID); or (b) their unlikelihood to be developed given near term economic conditions.Table 7: Total GOM investment, new baseline outlookYearTexasLouisianaOther GOMTotal GOMLNGNon-LNGLNGNon-LNGLNGNon-LNGLNGNon-LNG- (million $) -2020 3,372 7,131 3,628 2,550 - - 6,950 9,682 2021 3,631 7,716 9,262 1,16

281、9 - - 12,893 8,884 2022 4,159 2,912 14,303 2,411 - - 18,462 5,323 2023 1,665 5,491 10,577 3,242 - - 12,241 8,733 2024 130 1,298 3,692 2,594 - - 3,822 3,892 2025 214 899 293 506 - - 508 1,404 2026 2,247 215 - 687 - - 2,247 903 2027 538 - - 3,132 - - 538 3,132 2028 - - - 3,909 - - - 3,909 2029$- $- $-

282、 $ 1,565 $- $- $- $ 1,565 Total$ 15,905 $ 25,663 $ 41,755 $ 21,764 $- $- $ 57,660 $ 47,427 39LSU Center for Energy StudiesThe 2021 GCEO energy manufacturing investment outlook, until the year 2029, totals $105 billion. This investment is comprised of $58 billion in LNG investments (55 percent) and $

283、47 billion (45 percent) in energy manufacturing investments (non-LNG). Most of the total investment will be in Louisiana ($63.5 billion or 60 percent), followed by Texas ($41.5 billion or 40 percent).6. Energy Exports6.1 Recent Trends: Refined Product ExportThe Gulf Coast region is the single larges

284、t region in the U.S. for refined product capacity and output. As shown in Figure 26, the region accounts for 54 percent of all refining capacity and is intercon-nected into a variety of input and refined product pipelines. In addition, these refineries are integrated either directly or indirectly wi

285、th various hydrocarbon pipelines (such as liquefied petroleum gas or LPG) that move these commodities to chemical plants where they are converted into a number of intermediate commodity chemicals that, in turn, are shipped all around the world. Hence, the refin-eries in the Gulf Coast region are som

286、e of the most efficient and profitable in the U.S. and in some instances around the world.Figure 26: Number and capacity of U.S. refineriesSource: U.S. Energy Information Administration. Authors calculations from Form EIA-820.40Gulf Coast Energy Outlook 2021The last year has been particularly hard o

287、n U.S., refineries including those located along the Gulf Coast. The year started out with growing capacity and high utilization rates. The 2020 GCEO expected continued, but slower, capacity creep and efficiency gains. The slow-down in efficiency was attributed to a slowing economy in Asia and the n

288、eed for middle-distillate exports; however, despite this anticipated slowing, refineries were expected to maintain high capacity and utilization levels. The pandemic, however, changed expectations dramatically. Figure 27 shows capacity growth and utilization for the Gulf Coast regional refineries on

289、 an annual basis that reflects the 2020 GCEO projections.Figure 27: PADD 3 refining capacity and utilizationSource: U.S. Energy Information Administration. Petroleum & Other Liquids. Refinery Utilization and Capacity.Figure 28 provides a more granular analysis of refinery utilization over the past 2

290、4 months for PADD 3 (Gulf Coast) and the U.S. overall. The chart offers a number of important take-aways about the pandemics impact on refined product markets. First, the impacts of the pandemic were tremendous on regional and U.S. refined product output. Output peaked for both the U.S. and PADD 3 i

291、n February 2020, only to fall precipitously in the spring months as the U.S. and global economy went into a shut down. U.S. refinery utilization fell to 70 percent in April 2020 which was an all-time low. Similarly, PADD 3 refinery utilization fell to 74 percent in May 2020. PADD 3 output, however,

292、was much more resilient than other regions and the U.S. average. And, U.S. refinery utilization even in the last avail-able month of information (July 2020) still lags PADD 3. But, both U.S. and PADD 3 utilization levels still far lag their pre-pandemic levels.41LSU Center for Energy StudiesFigure 2

293、8: Monthly PADD 3 and U.S. refining utilizationSource: U.S. Energy Information Administration. Petroleum & Other Liquids. Refinery Utilization and Capacity. Percent Utilization of Refinery Operable Capacity.The 2020 GCEO noted the changes occurring in Gulf Coast refinery output over the past several

294、 years. Since the last recession, the Gulf Cost refinery output slate, on average, has seen an increasing concen-tration of output being dedicated to middle distillates (such as diesel and heating oil) and increasingly less on finished motor gasoline. Further, much of this middle distillate output h

295、as been dedicated to increasing exports. The 2020 GCEO anticipated that these trends would continue into the short-term forecast period (2020 to 2022). Figure 29 shows these annual trends and their continuation into 2019.Figure 29: PADD 3 petroleum product suppliedSource: U.S. Energy Information Adm

296、inistration. Petroleum & Other Liquids. PADD 3 Refinery & Blender Net Production. 42Gulf Coast Energy Outlook 2021The COVID-19 pandemic has had equally important impacts on the shift in PADD 3 output slate. Figure 30 shows the monthly output for the Gulf Coast region over the most recent 24 months o

297、f available data. First, as noted earlier, overall output is down precipitously, and down across all refined product types. Second, middle distillates have taken an exceptionally large hit due to the pandemic, including the separately reported jet fuel slate that is virtually non-existent in the mor

298、e recent months of data. Third, all output types are still far below their pre-pandemic levels. While finished motor gasoline has recovered the most (82 percent of pre-pandemic levels), distillates of all types are down considerably.Figure 30: Monthly PADD 3 petroleum product suppliedSource: U.S. En

299、ergy Information Administration. Petroleum & Other Liquids. PADD 3 Refinery & Blender Net Production.The 2020 GCEO also noted continued strength in refined product exports, mostly attributable to growth in middle distillates and other petroleum products. Shown in Figure 31, U.S. refined prod-uct exp

300、orts have been growing rapidly since the U.S. became net exporter. These trends continued through 2017 and 2018 but began to slow in 2018 as trade pressures with China began. This slow-down in refined product exports continued into 2019, even though overall exports were still at records levels of ar

301、ound three MMBBl/d.43LSU Center for Energy StudiesFigure 31: U.S. petroleum product imports and exportsSource: U.S. Energy Information Administration. Petroleum & Other Liquids. U.S. Imports and Exports of Crude Oil and Petroleum Products.The pandemic, however, has had a considerable impact on U.S.

302、refined product exports. Figure 32 provides more contemporaneous monthly data on total U.S. refined product volumes. Overall, the U.S. is still a net refined product exporter. Those exports, however, have fallen by as much as 47 percent and, in the most recently-reported month, stood at 2.9 MMBbl/d.

303、Figure 32: Monthly U.S. petroleum product imports and exportsSource: U.S. Energy Information Administration. Petroleum & Other Liquids. U.S. Imports and Exports of Crude Oil and Petroleum Products.44Gulf Coast Energy Outlook 20216.2 Recent Trends: Crude Oil ExportsThe Gulf Coast has become a leading

304、 export center in the U.S. ever since the 40-year ban on crude oil was lifted at the end of 2016. Prior to the pandemic, close to 85 percent of all U.S. crude oil exports left a GOM port, primarily Corpus Christi, Houston, and the Louisiana Offshore Oil Port (LOOP). The 2020 GCEO anticipated continu

305、ed strength in this sector of the regions energy economy with 2020 exports growing to around 3.0 MMBbl/d and 2021 crude oil exports growing rapidly, and peaking at around 3.5 MMBBl/d. As Figure 33 shows, the 2019 export figures are close to the 3.0 MMBbl/d mark.Figure 33: U.S. crude oil exports and

306、importsSource: U.S. Energy Information Administration. Petroleum & Other Liquids. U.S. Imports and Exports of Crude Oil. While the global pandemic has negatively impacted U.S. exports, overall volumes have been some-what resilient over the past several months. For instance, year-end and early 2020 e

307、xport numbers were in line with the prior GCEO forecast, if not slightly greater. Shown in Figure 33, export volumes, however, fell with the global economic shut down and corresponding lock downs that reduced over-all refined product, and ultimately crude oil demand. To date, exports have rebounded

308、from their summer lows, but are still only 85 percent of their February 2020 high volumes.45LSU Center for Energy StudiesFigure 34: Monthly U.S. crude oil exports and importsSource: U.S. Energy Information Administration. Petroleum & Other Liquids. U.S. Imports and Exports of Crude Oil.6.3 Recent Tr

309、ends: LNG ExportsIn 2005, high natural gas prices put a good part of the regions manufacturing industries in an existen-tial crisis. Natural gas, as noted earlier, is a key feedstock for the Gulf Coasts petrochemical industry. Increasing costs after Hurricane Katrina forced a considerable amount of

310、petrochemical production to be relocated to other parts of the world that relied more heavily on what was then relatively lower priced crude oil-based feedstocks. Capital investments in the U.S. during this period hit all-time lows. The saving grace for the industry during this time appeared to rest

311、 with the development of a number of very capital intensive LNG import facilities that were designed to vaporize (or “re-gas”) liquid fuel and inject it into the Gulf South natural gas pipeline network.Years later, the unconventional revolution and the production of abundant, low cost natural gas, c

312、ompletely turned around these challenging conditions to a point where the U.S. has become a net exporter of natural gas. All of the GOM facilities that were originally designed to import natural gas have now all been converted through expansive investments to export facilities. This is usually done

313、through the addition of expensive liquefaction investments that cool natural gas to -260 degrees Fahrenheit. Over the past eight years, export volumes from these GOM facilities, as well as many others around the world, have grown considerably.Figure 35 highlights the considerable growth of the LNG m

314、arket since the last global economic recession. LNG trade volumes for 2010, for instance, show a considerable “shift change” in export volume trends that have continued over the past decade. In fact, LNG trade volumes have grown at a healthy clip of 6 percent per year over the past decade alone with

315、 2019 reporting a record level of over 45 Bcf/d.46Gulf Coast Energy Outlook 2021Figure 35: World LNG trade volumesSource: BP Statistical Review of World Energy.As shown in Figure 36, currently, the market share for LNG imports is dominated by Asian countries. Japan, is currently the largest global L

316、NG importer and has a long historic relationship with LNG trad-ing that dates back to early imports from the Kenai LNG facility in Alaska that provided natural gas volumes to the Tokyo Electrical Power Company (TEPCO) and Tokyo Gas Company. China follows closely as the second largest importer follow

317、ed closely by South Korea and India. These four coun-tries, collectively, account for 60 percent of all currently traded LNG volumes.47LSU Center for Energy StudiesFigure 36: LNG imports and market share by country, 2019Source: International Gas Union, 2019 World LNG Report.While China ranks “second

318、” in terms of imported LNG volumes, it is one of the fastest growing coun-tries for LNG volumes and will likely outpace, and then substantially exceed, Japanese volumes within the next few years. Figure 37, for instance, shows the annual changes in Chinese natural gas demand, a large part of which i

319、s met through international LNG imports. That demand, totaling 10 Tcf per year, is growing at rates that over the past three years have been at or above 1 Tcf per year. The growth rate over the past five years alone is around 70 percent.48Gulf Coast Energy Outlook 2021Figure 37: Chinas natural gas d

320、emandSource: U.S. Energy Information Administration. Country Analysis: China. September 2020. Figure 4. Chinas dry natural gas production and consumption, 2000-2019. And authors calculations.Some concerns have been expressed about U.S. natural gas commodity prices increasing to meet global prices as

321、 international natural gas markets become more integrated through LNG trade. Figure 38, for instance, shows the trends in global natural gas prices over the past two decades. The Henry Hub price, the primary benchmark used for natural gas pricing in the U.S., has remained relatively low and flat sin

322、ce the past recession (2008-2009). Interestingly, the high prices seen in places like Western Europe (OECD countries) or Japan have fallen to levels closer to the Henry Hub price, not vice versa. So, while the “law of one price” may appear to be working, it has been working in a direc-tion that has

323、seen world prices fall to levels more comparable to those in the U.S.49LSU Center for Energy StudiesFigure 38: World energy pricesSource: World Bank Commodity Price Data.LNG markets have been impacted by the recent pandemic and these negative impacts are likely to continue for the next several years

324、. Like spot crude oil prices over the past spring, Asian spot prices for natural gas cargoes have fallen to levels that are almost unbelievable. Figure 39 provides the recent trends on the Japan Korean Marker (JKM) price that plummeted to a record low of around $2.00 per MMBtu in May 2020. JKM price

325、s have tried to rebound since that time, moving up to around $4.00 per MMBtu during the summer, but are moving their way back down to $2.00 as the year ends. Prices this low make it difficult to justify moving cargoes from the U.S. to Asian economies, where natural gas priced at the Henry Hub is hig

326、her.50Gulf Coast Energy Outlook 2021Figure 39: Japan spot LNG priceNote: “Spot-LNG” refers to LNG that are traded on a cargo-to-cargo basis and does not mean term contracts of LNG (so-called “long,” “medium,” “short-term” contracts). In addition, spot-LNG, the price of which is linked to a particula

327、r price index (for example the Henry Hub link, and the JKM link), is excluded from these statistics. Objects of these statistics are spot-LNGs, the prices of which are determined at the time of contract (so-called “fixed price”).Source: Japanese Ministry to Economy, Trade and Industry. Spot LNG Pric

328、e Statistics. Commodity Market Office. Commerce and Service Industry Policy Group, METI.6.4 Outlook: Refined Product ExportsThe refined product outlook for the next several years will be highly dependent upon the gradual winding down of the current pandemic threat and the economic recovery from the

329、2020 economic shutdowns. At year-end 2020, Chinas economy appears to be recovering strongly from its prior COVID-19-related contraction. In fact, China has seen a considerable level of crude oil and refined product imports over the past several months. Those increased crude oil and refined product i

330、mports from the GOM alone are clearly visible in Figure 40.51LSU Center for Energy StudiesFigure 40: Gulf Coast exports to ChinaSource: U.S. Census Bureau, Economic Indicators Division, USA Trade Online.The 2020 GCEO anticipated relatively stable refined product growth over the 2020-2022 time period

331、. Liquid fuel demand at that time was still anticipated to rise, but at slower rates than prior years. Most of this growth was anticipated to be generated by Asian and other developing econo-mies with little arising from OECD countries and the U.S. The outlook for liquid fuel demand, however, has be

332、come much more difficult to gauge given the massive disruptions in economic activity and traveling habits of countries all around the globe. Some of the COVID-19-related impacts on liquid fuel demand have been unambiguous. Consider that the demand for jet fuel has suffered tremendously since a virtu

333、al cessation of most air travel around the globe. While air travel has picked up from lows during the earlier part of the year, most airlines anticipate exceptionally low travel volumes for at least the next two years. This will clearly result in considerably lower jet fuel demand for the foreseeabl

334、e future.The impacts of the pandemic on future motor gasoline demand are a little more ambiguous. During the initial months of the pandemic in early 2020, motor gasoline demand was clearly lower: however, as economies around the globe started to return to work and economic activity, gasoline demand

335、in some applications started to increase. Passenger vehicle demand for motor gasoline started to increase as individuals chose to use their own vehicles instead of public transportation. Further, in the early summer months of 2020, households opted for vacations that were drivable and within a days

336、travel, leading to some optimism that gasoline demand would make a comeback that ultimately stalled by Labor Day.Thus, understanding where and how liquid fuel demand will go is difficult. What is likely is that the outlook for refined products will continue to be challenging for the next 24 months.

337、Figure 41 below 52Gulf Coast Energy Outlook 2021provides recent trends and outlook for liquid fuels prepared by the EIA. The chart shows the precipi-tous decline in petroleum demand due to the pandemic: as much as 6 MMBBl/d for the U.S. compared to a decrease of as much as 16 MMBBl/d for the rest of

338、 the world. While the EIA anticipates a recov-ery, both U.S. and global liquid fuel demand is anticipated to remain below 2019 levels through at least 2021.Figure 41: U.S. and world petroleum demandSource: U.S. Energy Information Administration. Short-Term Energy Outlook. October 2020. 6.5 Outlook:

339、Crude Oil ExportsFigure 42 provides the most recent EIA Annual Energy Outlook (AEO) that forecasts likely U.S. crude oil exports over the next several decades. This forecast, which was completed in January 2020 prior to the pandemic, itself shows a considerable revision from the prior year outlook,

340、which formed the basis for the 2020 GCEO. For instance, near term crude oil exports, even under the pre-pandemic AEO, are anticipated to be about 1 MMBBl/d lower in the 2020-to-2022 period relative to the prior year AEO. Additional weakening is likely due to carry-over impacts of the earlier pandemi

341、c-induced economic contractions, as well as any additional contractions that may arise due to the winter 2020-2021 and its corresponding flu season. 53LSU Center for Energy StudiesFigure 42: U.S. crude oil exportsSource: U.S. Energy Information Administration. Annual Energy Outlook 2019 and 2020. Pe

342、troleum and Other Liquids Supply and Disposition. Liquid Fuels: Crude Oil: Domestic Production. 6.6 Outlook: LNG ExportsAs noted earlier, the outlook for LNG exports is bleak. While Asian demand is making a resurgence, and China appears to be the bright spot in the overall global economy, there are

343、simply too many molecules of natural gas chasing too little demand. Figure 43 presents an outlook of the potential U.S. LNG export capacity that could be developed based on current announcements about construction and commercial operation dates (CODs). This chart represents the “book-end” of potenti

344、al regional LNG export facility development: the maximum amount that could arise based on currently projected timelines. This level of development, which sums to as much as 50 Bcf/d, or one-half of the total current U.S. natural gas market, is unlikely to arise, but it does put some perspective on t

345、he magni-tude of LNG project announcements that is considerably higher than market needs, particularly in a post-pandemic world.54Gulf Coast Energy Outlook 2021Figure 43: Existing and proposed U.S. LNG capacity developmentSource: U.S. Energy Information Administration. Natural Gas. U.S. Liquefaction

346、 Capacity. Existing, under construction, and FID large scale U.S. liquefaction facilities. Figure 44 provides a more likely scenario for LNG export facility development. This chart is based on the revised baseline analysis discussed earlier and is tied to the energy manufacturing investment outlook.

347、 This chart removes projects that have not reached FID or have been in the project devel-opment pipeline for a long time, with little to no physical or contractual development activity. Other projects, announced by large companies with some degree of financial commitment or prior LNG development exp

348、erience, are moved out in their respective development timelines to accommodate the current glut of global LNG export capacity. Figure 44: Revised existing and proposed U.S. LNG capacity developmentSource: U.S. Energy Information Administration. Natural Gas. U.S. Liquefaction Capacity. Existing, und

349、er construction, and FID large scale U.S. liquefaction facilities and authors calculations.55LSU Center for Energy StudiesThe 2021 GCEO capacity forecast anticipates total LNG facility development of 34 Bcf/d an amount that is 46 percent lower than the “book-end” tally based on total project announc

350、ements. The 2021 GCEO anticipates as much as 8.5 Bcf/d of new capacity in 2021 and 11.6 Bcf/d of new capacity in 2022.7. COVID-19 Impacts on Domestic Energy DemandThere are two sources of demand for energy and chemical products; exports and domestic demand. Exports were highlighted in Section 6. Nex

351、t, three categories of domestic energy demand are high-lighted. Specific focus will be given to short-term COVID-19 demand impacts. For each of these categories of energy demand, the percent change in monthly demand in 2020 relative to the same month in 2019 is presented. This will be instructive in

352、 understanding how demand reductions have impacted demand differently across the energy sector. Consistent with Table 2, these tables will show percent change by month in 2020 compared to the same month in the prior year (i.e. 2019) for apples-to-apples comparisons across energy sources. It is impor

353、tant to note that revisions to monthly data are common, and therefore these are likely not final. Nonetheless these comparisons are constructive for broadly understanding COVID-19 impacts on energy markets. 7.1 Electricity DemandTable 8 shows electricity demand both for the entire United States and

354、for the Gulf Coast region. Electricity demand is also broken out by customer class, including residential, commercial, and indus-trial customers.21 Analysis of Table 8 reveals several insights. First, electricity demand was initially negatively impacted due to COVID-19. Specifically, U.S. electric-i

355、ty demand was down 5.5 percent in March relative to the prior year, and Gulf Coast demand was down 1.3 percent in the same month. Thus, initially U.S. electricity demand was impacted more than the Gulf Coast. On a monthly percent basis relative to the prior year, May was the lowest demand for both t

356、he U.S. and Gulf Coast at 8.8 percent and 8.9 percent down respectively. But since the bottom in May, the U.S. has bounced back more quickly than the Gulf Coast, and on an annualized basis, Gulf Coast demand is down 4.3 percent relative to 2019, as compared to 3.8 percent for the U.S. Second, though

357、, there has been a compositional change in electricity demand. Perhaps unsurpris-ingly, residential demand has been up during COVID-19. On an annualized basis U.S and Gulf Coast residential electricity demand are up by 2.4 percent and 1.5 percent, respectively. Industrial demand has been impacted th

358、e most on a percent basis, with U.S. commercial electricity demand down 15.9 percent in its worse month (May). Commercial demand is also down on an annualized basis by 6.4 percent for the U.S. and 3.9 percent in the Gulf Coast. Important to note related to our industrial outlook (see Section 5), Gul

359、f Coast industrial electricity usage has seen the most persistent reduction of all. GCEO takes the view that the return of this indus-trial demand will be driven by demand for products globally that are exported from the Gulf Coast region, and less so by industrial facilities ability to operate effi

360、ciently during COVID-19. 21Note that the sum of customer classes does not equal total demand due to smaller customer classes, such as transportation. 56Gulf Coast Energy Outlook 2021Table 8: Electricity demandResidentialCommercialIndustrialTotal DemandThousand GWhPercent ChangeThousand GWhPercent Ch

361、angeThousand GWhPercent ChangeThousand GWhPercent ChangePanel A: United StatesMarch104.0 -7.6%102.9 -4.2%77.6 -4.4%284.5 -5.5%April 97.5 7.890.6 -11.569.6 -13.5257.7 -5.7May105.4 5.193.4 -16.071.2 -15.9270.0 -8.8June131.2 9.3108.7 -6.175.2 -11.5315.1 -1.8July166.9 8.5126.0 -3.881.3 -10.4374.2 -0.3Au

362、gust158.8 5.8122.0 -6.782.6 -9.3363.4 -2.3Year to Date1,000.2 2.4%854.4 -6.4%610.5 -9.2%2,465.2 -3.8%Panel B: Gulf CoastMarch15.6 -4.2%15.4 3.8%16.9 -2.9%47.9 -1.3%April 14.9 9.414.1 -4.015.7 -10.544.7 -2.5May17.4 4.014.3 -14.015.4 -16.047.1 -8.9June22.7 3.817.2 -4.616.0 -15.655.9 -5.1July27.8 7.619

363、.3 -3.116.6 -15.263.8 -2.5August27.8 1.819.1 -7.116.9 -13.963.8 -5.5Year to Date161.0 1.5%129.4 -3.9%130.3 -10.9%420.8 -4.3%Note: Percent change represents a percent change from the same month in the prior year.Source: U.S. Energy Information Administration. Sales of Electricity to Ultimiate Cusomte

364、rs by End-Use Sector. 7.2 Transportation Fuels DemandTable 9 shows COVID-19 impacts of domestic transportation fuel demand. The three largest transpor-tation fuels (in total volumes) include (1) motor gasoline, (2) diesel fuel, and (3) jet fuel. Unsurprisingly, demand is down in all three of the cat

365、egories presented, but the level of demand reduction is very different. Specifically, and perhaps unsurprisingly, jet fuel has experienced the largest reduction on a percent-age basis. In its worse month, April, domestic jet fuel demand was down 65 percent relative to the same month in the prior yea

366、r. In the most recent month available, August, jet fuel demand is still down 43 percent. On an annualized basis, jet fuel demand is down 35 percent in 2020 relative to 2019. These are staggering numbers on a percentage basis. GCEO anticipates that jet fuel will continue to experience the slowest rec

367、overy. Motor gasoline was also negatively impacted but has recovered at a faster rate. In April, motor gaso-line demand was down 38 percent from the prior April; as of August this has bounced back but is still 10.8 percent below 2019 levels. Part of this recovery likely comes from travelers substitu

368、ting away from plane travel toward vehicles. But discussions with industry suggest that most people are still 57LSU Center for Energy Studiesworking from home to avoid the commute to work. GCEO takes the view that this motor gasoline demand will continue to recover into mid-2021. At that point, it w

369、ill be interesting to see how compa-nies respond long term to an already shifting dynamic toward working at home. Some companies, in particular outside of the energy sector, have revealed that they are permanently reducing office space with the intention of increasing the share of work conducted at

370、home into perpetuity. On a percent basis, diesel fuel was the least impacted. It was down 12.3 percent in May but recovered quickly in June to just 5.2 percent below the level observed in June of 2019. On an annualized basis, diesel fuel is down 5.1 percent compared to 2019, and these numbers are li

371、kely to improve through the end of the year, although, improvement has flatlined in the most recent two months of data. Table 9: Transportation fuel demandMotor GasolineDiesel FuelJet FuelMillion Gallons per DayPercent ChangeMillion Gallons per DayPercent ChangeMillion Gallons per DayPercent ChangeM

372、arch 309.1 -13.7% 159.2 2.5% 55.0 -12.8%April 228.2 -38.1 143.5 -10.1 23.9 -62.8May 284.6 -24.6 140.3 -12.3 23.6 -64.8June 332.3 -12.0 153.4 -5.2 32.8 -51.6July 345.0 -9.2 151.3 -6.1 37.8 -43.3August 345.4 -10.8 154.1 -6.1 38.4 -42.7Year to Date 318.5 -13.3% 151.5 -5.1% 42.2 -34.9%Note: Percent chan

373、ge represents a percent change from the same month in the prior yearSource: U.S. Energy Information Administration, Petroleum & Other Liquids Prime Supplier Sales Volumes7.3 Natural Gas DemandTable 10 shows domestic natural gas demand. Four categories of demand are highlighted: final sales of natura

374、l gas to residential, commercial, and industrial customers as well as natural gas consump-tion for power generation. On an annualized basis, natural gas demand from residential, commercial, and industrial customers is down 8.4 percent, 10.9 percent, and 3 percent, respectively. Interestingly, while

375、residential natural gas demand was down in March by 23.7 percent, in all subsequent months, residential natural gas demand has been higher compared to 2019. This is consistent with observed residential demand for electricity shown in Table 8. Commercial and industrial demand have been down each mont

376、h since the pandemic began. But natural gas consumption used for electricity generation has been up since in each month relative to 2019, with the exception of August where it was down just slightly. This is likely due to a number of factors, including increased natural gas capacity (discussed in Se

377、ction 4) alongside low natural gas prices (discussed in Section 2.3) increasing the economics of natural gas generation in dispatching decisions. With all of these factors taken into account, domestic natural gas demand is down only 1.3 percent on an annualized basis, and by the end of 2020 (dependi

378、ng on the weather this winter), 58Gulf Coast Energy Outlook 2021domestic natural gas usage will likely be relatively flat compared to 2019. This will of course be impacted greatly by the weather as the heating season begins. Table 10: Domestic natural gas demandResidentialCommercialIndustrialElectri

379、c PowerTotal DemandBcf/dPercent ChangeBcf/dPercent ChangeBcf/dPercent ChangeBcf/dPercent ChangeBcf/dPercent ChangeMarch16.93 -23.7%10.87 -20.5%23.24 -4.0%28.35 10.1%80.85 -7.5%April 12.51 14.37.90 -3.921.47 -4.725.47 3.866.40 1.8May7.58 10.75.20 -12.820.16 -7.526.89 0.360.97 -2.5June4.53 5.24.39 -9.

380、020.24 -4.334.85 5.263.11 1.0July3.81 5.74.15 -9.220.69 -1.344.29 7.874.29 3.9August3.54 7.74.24 -6.621.08 -2.841.31 -0.671.48 -1.2Year to Date12.56 -8.4%8.46 -10.9%22.28 -3.0%32.86 6.0%76.33 -1.3%Note: Percent change represents a percent change from the same month in the prior yearSource: U.S. Ener

381、gy Information Administration8. Employment Outlook8.1 Employment ForecastsIn this final section of the GCEO, all prior sections are synthesized into employment forecasts for the regional energy industry. Specifically, employment is forecast within two broad sectors: (1) upstream oil and gas extracti

382、on and services and (2) refining and chemical manufacturing. Sectors are iden-tified based on the North American Industry Classification System (NAICS). Upstream oil and gas is defined as including oil and gas extraction (NAICS sector 211) and support activities for mining (NAICS sector 213). Refini

383、ng and chemical manufacturing employment includes petroleum and coal products manufacturing (NAICS sector 324) and chemical manufacturing (NAICS sector 325).22 Employment forecasts are produced for each of these aggregated sectors for Texas and Louisiana. Upstream oil and gas employment for both Lou

384、isiana and Texas exhibit three key patterns in histor-ical data in Figure 45 and Figure 46. The first is growth prior to 2015, modest in Louisiana and rapid in Texas. This is followed by a collapse in upstream employment in both states in 2015. The explana-tion is simple and abundantly clear from ou

385、r earlier discussion: the collapse in oil prices that led to a dramatic reduction in rig counts (see Figure 2 in Section 2.1). During the 2015 crash, Texas lost more than 100,000 upstream jobs from peak to trough. Louisiana lost about 18,000. Post-2015 crash, Texas employment climbed back slowly thr

386、ough approximately the end of 2018 before beginning a modest decline. Louisiana upstream employment was approximately flat over this period. 22Chemical manufacturing includes many product types, including resins, pesticides, pharmaceuticals, paints, soaps, and others. 59LSU Center for Energy Studies

387、The third shock began in early 2020 in response to the COVID-induced economic downturn. According to the most recent estimates, Texas has lost 52,000 jobs, and Louisiana has lost 7,100 jobs.23 On a percentage basis, Texas and Louisiana lost 23.6 percent and 21.3 percent, respectively. Thus, not only

388、 did Texas lose more jobs, but it also experienced a larger percentage drop relative to Louisiana. Figure 45 and Figure 46 also show the forecast employment in the upstream oil and gas sectors for Louisiana and Texas, respectively. Econometric forecasts are based on a combination of both the futures

389、 markets for oil and natural gas shown in Figure 7 and Figure 8, alongside the Enverus ProdCast model outputs shown in Figure 9 and Figure 10.Model results suggest that Louisiana “bottomed out” upstream employment in September of 2020, while Texas reached its lowest level with a one-month lag (i.e.

390、in October). So, at the time of this writ-ing, we anticipate that the bottom is behind us in both states. Over the next year, we anticipate both states to gain back some of these COVID-19 induced job losses. By the end of 2021, Louisiana is expected to gain about 2,600 jobs back relative to the trou

391、gh in September of 2020. Texas is fore-cast to gain 13,150 upstream jobs back. It is important to note that although employment is expected to increase over the forecast horizon, these model results are not anticipating employment in either state to reach pre-COVID-19 levels over the forecast horizo

392、n.Figure 45: Louisiana upstream employment forecast202530354045505560Thousands of Jobs2006200820102012201420162018202020222024Historical EmploymentForecastSource: U.S. Bureau of Labor Statistics, Current Employment Statistics. Authors forecast.23Comparison of employment in December of 2019 to the cu

393、rrent estimated employment in August of 2020. 60Gulf Coast Energy Outlook 2021Figure 46: Texas upstream employment forecast150200250300Thousands of Jobs2006200820102012201420162018202020222024Historical EmploymentForecastSource: U.S. Bureau of Labor Statistics, Current Employment Statistics. Authors

394、 forecast.The forecasts of refining and chemical manufacturing employment are shown in Figure 47 and Figure 48. For both Louisiana and Texas, the GCEO forecast is based on the historical relationship between capital expenditures and employment growth alongside our baseline capital expenditures prese

395、nted in Table 7. Unlike the upstream oil and gas employment that has seen significant reductions since the 2015 price crash, refining and chemical manufacturing employment has increased in both Texas and Louisiana over this time horizon, for reasons discussed in Section 5. This employment growth has

396、 been facil-itated due to a combined $120 billion in manufacturing investments since 2011 in these two states. As new plants are built and expansions are completed, this creates jobs that can persist for decades into the future. For Louisiana, we anticipate employment to grow modestly over the forec

397、ast horizon. Specifically, we anticipate employment to increase by about 300 jobs by the end of 2021, or about 0.8 percent increase. Employment growth is expected to expand its pace in 2022 and 2023 by 1.1 percent and 1.8 percent, respectively. This is driven by the current lull in capital expenditu

398、res that are expected to accelerate in the post COVID-19 era as global demand is anticipated to return. 61LSU Center for Energy StudiesFigure 47: Louisiana refining and Chemical manufacturing employment forecast323436384042Thousands of Jobs2006200820102012201420162018202020222024Historical Employmen

399、tForecastSource: U.S. Bureau of Labor Statistics, Quarter Census of Employment and Wages. Authors forecast. As shown in Figure 48, Texas refining and chemical manufacturing employment is expected to increase through 2021 but still be at slightly below the employment level experienced in the peak in

400、December of 2019. In 2022 and 2023, we expect an increase in refining and chemical manufacturing employment by 1.8 percent and 1.9 percent, respectively, as capital projects are completed. Figure 48: Texas refining and chemical manufacturing employment forecast9095100105110Thousands of Jobs200620082

401、0102012201420162018202020222024Historical EmploymentForecastSource: U.S. Bureau of Labor Statistics, Quarter Census of Employment and Wages. Authors forecast.62Gulf Coast Energy Outlook 20219. ConclusionsThis has been a difficult year for the energy industry along the Gulf Coast and globally. Energy

402、 demand has been reduced due to COVID-19 across energy types, including electricity, liquid fuels, and natural gas. These demand reductions have cascaded through the economy, reducing employ-ment by tens of thousands of jobs in the select sectors highlighted here, alone. But in addition to the short

403、-term impacts of COVID-19, there is significant longer-term uncertainty in energy markets. Increasingly, countries across the world and individual companies are making commitments to decar-bonize the global economy. Thus, while energy will still be very much needed, the very structure of the energy

404、industry has the potential to change. As mentioned previously, at the time that this document is being finalized, the U.S. has completed its presidential election, but the final result has still not been determined. The outcome of this election has the potential to impact the energy outlook in two m

405、ajor ways. First, the Biden campaign has promised to ban new oil and gas permitting on federal lands and waters while investing 1.7 trillion of taxpayer dollars into “clean energy” over the next 10 years. Supply side effects of a Biden policy, ironically, could increase oil and natural gas prices, l

406、eading to improved economics in areas not directly impacted by regulatory changes. But also, higher prices for fossil-based energy alongside subsidies can improve the comparative economics of renewables. Potential Biden policies that could work against higher domestic prices include the emergence of

407、 potential energy trading barriers, particularly barriers to energy infrastructure development (e.g., storage, pipe-lines, export facilities) needed to move energy commodities of all types from their various producing areas to export centers along the GOM. Further, diplomatic re-engagement with Iran

408、, including a rehabilitation of the Iranian nuclear deal, could have considerable implications for world crude oil supplies at a crucial time when many GOM energy companies are simply trying to survive. While predicting specifics of a Biden energy policy are beyond the scope of this outlook, these p

409、olicy changes if implemented could have important implications for the Gulf Coast energy industry. Also impacted by the outcome of the election are the trade negotiations with China. As part of this years outlook preparation, input was gathered from international trade experts with regard to the sta

410、tus of trade negotiations. One recurring theme of these discussions was uncertainty as to how and if a Biden presidency would continue these negotiations. Would a Biden administration return to a pre-Trump trade policy with China, or would he continue negotiations? Further, how would a re-elected Pr

411、esident Trump approach Phase II negotiations? Because energy demand growth over the coming decade is anticipated to come from Asian markets, these negotiations can impact the viability of projects on the Gulf Coast. The future of U.S.-China trade relations has the potential to impact industrial deve

412、lopments along the Gulf Coast. But perhaps more important than governmental policies, the speed of recovery from the pandemic will be the main determinate of employment recovery in the energy sector over the next year. At the time of this writing, the U.S. is experiencing increases in COVID-19 daily

413、 cases, even surpassing the daily rate for cases in July. The U.K., Germany, and France have re-entered country-level shutdowns due to cases spiking in Europe. Embedded in this outlook is the assumption that COVID-19 will grad-ually subside, and that a second wave of shutdowns will be avoided. Yet,

414、within days of sending this 63LSU Center for Energy Studiesoff to print, the likelihood of a second wave of infections and associated reduced economic activity has increased substantially. Looking into the future, the 2021 GCEO suggests that Louisiana will continue to play an increasingly important

415、role in the manufacturing of energy and chemical products, while Texas will continue to be at the forefront of the upstream oil and gas extraction industry. While upstream employment is antic-ipated to rebound in both Texas and Louisiana, forecasts do not suggest returning to levels seen before the

416、2015 oil price crash, or even back to pre-COVID-19 levels over the forecast horizon.64Gulf Coast Energy Outlook 2021The Center for Energy StudiesThe Center for Energy Studies conducts, encourages, and facilitates research and analysis to address energy-related problems or issues affecting Louisianas

417、 economy, environment, and citizenry. The Centers goal is to provide a balanced, objective, and timely treatment of issues with potentially import-ant consequences for Louisiana.The Center for Energy Studies was created by the Louisiana Legislature in 1982 as the embodiment of recommendations made by an independent group of experts and at the urging of Louisiana busi-ness and public interest groups, as well as the University.lsu.edu/ces