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Effects of Feed Quality and Product Specification Changes on Refined Product Supply

Effects of Feed Quality and Product Specification Changes on Refined Product Supply. Joanne Shore John Hackworth Energy Information Administration NPRA Annual Meeting San Antonio, Texas March 2003. www.eia.doe.gov. Petroleum Product Supply Affected By Numerous Factors.

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Effects of Feed Quality and Product Specification Changes on Refined Product Supply

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  1. Effects of Feed Quality and Product Specification Changes on Refined Product Supply Joanne Shore John Hackworth Energy Information Administration NPRA Annual Meeting San Antonio, Texas March 2003 www.eia.doe.gov

  2. Petroleum Product Supply Affected By Numerous Factors Changing Feed Quality Changing Product Specifications Capacity Changes Petroleum Refined Product Supply Technology Imports

  3. U.S. Refining Capacity: Where We Are Today Source: EIA

  4. Domestic Capacity Is Expected To Grow Historical shutdowns are for years 1990-1994, 1995-1999. Source: EIA

  5. Gasoline Imports Are Important Source of Supply for East Coast Source: EIA

  6. Changing Feedstocks: Any Signs of Supply Impacts? • Growing use of heavier crude oils impact on light product yields • Historical changes in the use of C4’s, C5’s and oxygenates in gasoline

  7. Heavier Crude Oils Accounted for Import Growth Source: EIA

  8. U.S. Refinery Input Quality Source: EIA

  9. Rapid Growth in Bottoms Processing for Heavy Sour Crude Oils Source: EIA – Capacity as of January Each Year

  10. Changes in Light-Product Yields at Refineries with Coker and Heavy Crude Oils Projects • Explored changes in refineries adding cokers between 1998 and 2001 • Looked at two groups with different product yield impacts: • Group A : Little change in crude gravity, reduction in residual fuel oil yield • Group B - Large drop in crude gravity, little residual fuel oil to reduce

  11. Before & After Coker Additions NOTE: Group A: 4 refineries, 140 MB/D coking capacity added; Group B: 4 refineries, 130 MB/D coking added. Gasoline yield is adjusted by removing contributions from C4, C5 and oxygenate blend components so that yields reflect only gasoline product derived from crude oil and unfinished feedstocks (C+U).

  12. Oxygenates, C4’s and C5’s Contribute Significant Volumes to Gasoline Production Source: EIA

  13. Flat Crude-Based Gasoline Yield Source: EIA

  14. New Regulatory Supply Impacts • MTBE/Ether Bans • MSAT with MTBE Bans • ULSD

  15. Losing MTBE – Not Just MTBE Volume Loss • MTBE represents over 10% RFG, 3% total gasoline supply. • But physical & chemical properties are critical factors. • No other hydrocarbon or alcohol can equal the emission and engine performance characteristics of MTBE and other ethers.

  16. MTBE and Ethanol Property Comparison • Both good octane and clean relative to other gasoline components • Issue is Ethanol relative to MTBE: • Higher oxygen content, so less volume needed for RFG oxygen requirement (5.8% v. 11.2% for MTBE) • Higher blending RVP than MTBE (VOCs problem) • Higher toxics than MTBE (MSAT issue) • Higher NOx in California model, not Federal model

  17. 2007 Loss of Volumes When Moving from MTBE to Ethanol – Add Backs (Constant Inputs, MB/D) Assumes MSAT volume issues are resolved and rule does not hinder RFG production. Source: EIA

  18. 2007 Loss of Volumes When Moving from MTBE to Ethanol – Further Losses (Constant Inputs, MB/D) (1) Assume MSAT volume issues are resolved and rule does not hinder RFG production Source: EIA

  19. The MSAT Issue Concerning Ethanol (Complex Model) Note: Fractions of specific components in the hydrocarbon blend are the same in all cases. Emissions reductions are based on comparisons to 1990 industry average baseline fuel composition. Source: EIA

  20. ULSD - The Lower the Sulfur and the Higher the Volume the Greater the Cost Source: EIA

  21. Potential Regulatory Changes • More ULSD (off-road) • More diesel light duty vehicles (diesel quality and volume issues) • Increased ethanol use (mandated or otherwise) • Other product clean up (sulfur reduction jet fuel, home heating oil)

  22. Increased U.S. Light Duty Diesel Fuel Use? 2001 New Retail Sales Light Duty Vehicles Sources: US Chart -- ORNL Investigation of Class 2bTrucks, March 2002 & EIA Estimates; Europe Chart -- ACEA

  23. Proposed Renewable Fuel Standard Source: EIA, Monthly Oxygenate Survey and H.R. 4

  24. Elimination of RVP Waiver Diminishes Ethanol Supply Contribution Source: EIA

  25. Results of Tighter Product Specs and Greater Refinery Complexity • Increased likelihood of outages • Single unit outage has greater impact on product production • Decrease in maximum achievable utilization • Diminished yields of prime fuels per barrel of crude oil • Greater “stay-in-business” investment hurdle for smaller refiners

  26. Summary: Impacts of Feedstock Changes • Fewer heavy crude projects, but will result in some light-product yield loss • Reduced ability to use light components (C4’s & C5’s) and MTBE will reduce gasoline yield per barrel of crude input

  27. Summary: Potential Regulatory Impacts on Gasoline • Ether Bans  Largest supply challenge with significant RFG production loss, exacerbated by MSAT (Loss of MTBE, C4’s C5’s exceeds ethanol additions) • RFS  Adds some volume, but loss of 1-lb RVP waiver reverses some of that gain • Import streams meeting RFG specifications likely to become harder to find and more expensive • More distinct gasoline types adding to distribution system stress

  28. Summary: Potential Regulatory Impacts on Diesel • ULSD  High and widely varying costs of production and new technology may cause some refiners to delay implementation & create shortages initially • Possible increase in light duty diesel vehicles  More ULSD volume and near-term quality improvements that increase refining challenges • Distribution losses with ultra-clean products is a challenging unknown

  29. Light Product Yield Feedstock changes – Loss of light product yield Product spec changes – Net loss of light product yield Capacity Need more capacity to meet demand, yield loss, potential lower utilizations Pressures to increase: Demand growth Higher import prices Pressures hindering expansion Resources limited to spec changes Margins Shutdowns Conclusion: Challenging Environment Implies Tight Market Years Ahead

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