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Fuels to drive our future / Committee on Production Technologies for Liquid Transportation Fuels, Energy Engineering Board, Commission on Engineering and Technical Systems, National Research Council.

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Format:
Book
Author/Creator:
National Research Council (U.S.). Committee on Production Technologies for Liquid Transportation Fuels.
Language:
English
Subjects (All):
Motor fuels.
Liquid fuels.
Physical Description:
1 online resource (235 p.)
Edition:
1st ed.
Place of Publication:
Washington, D.C. : National Academy Press, 1990.
Language Note:
English
Summary:
The American love affair with the automobile is powered by gasoline and diesel fuel, both produced from petroleum. But experts are turning more of their attention to alternative sources of liquid transportation fuels, as concerns mount about U.S. dependence on foreign oil, falling domestic oil production, and the environment. This book explores the potential for producing liquid transportation fuels by enhanced oil recovery from existing reservoirs, and processing resources such as coal, oil shale, tar sands, natural gas, and other promising approaches. Fuels to Drive Our Future draws together relevant geological, technical, economic, and environmental factors and recommends specific directions for U.S. research and development efforts on alternative fuel sources. Of special interest is the book's benchmark cost analysis comparing several major alternative fuel production processes. This volume will be of special interest to executives and engineers in the automotive and fuel industries, policymakers, environmental and alternative fuel specialists, energy economists, and researchers.
Contents:
Fuels to Drive Our Future
Copyright
Preface
Contents
Executive Summary
RECOMMENDATIONS FOR LIQUID FUELS R&amp
D
Major Funding Areas
Moderate Funding Areas
Modest Funding Areas
1 Introduction
OBJECTIVE OF THE STUDY
U.S. R&amp
D FOR LIQUID FUELS PRODUCTION FROM DOMESTIC RESOURCES
CURRENT CONCERNS ABOUT ENERGY AND THE U.S. TRANSPORTATION SYSTEM
Dependence on Imported Petroleum
Local Air Quality
Global Warming
INCREASING THE USE OF DOMESTIC RESOURCES
PLANNING SCENARIOS
Economic Scenarios
Environmental Scenarios
Energy Security Scenarios
ORGANIZATION OF THE STUDY AND REPORT
2 Conventional Petroleum, Enhanced Oil Recovery, and Natural Gas
REMAINING DOMESTIC OIL AND GAS RESOURCES
Oil Resources
Gas Resources
Natural Gas Liquids
PRODUCTION TECHNOLOGIES AND PROCESSES
UPSTREAM OIL AND GAS ENVIRONMENTAL IMPACTS
TIME AND INVESTMENT REQUIRED FOR INCREASED OIL AND GAS PRODUCTION
LOSS OF RESERVE GROWTH AND EOR POTENTIAL
TECHNOLOGICAL OPPORTUNITIES
DOE RESEARCH PROGRAM
SUMMARY
3 Production Costs for Alternative Liquid Fuels Sources
STRUCTURE OF THE ANALYSIS
COST ESTIMATES FOR THE VARIOUS TECHNOLOGIES
ISSUES OF FUEL DISTRIBUTION AND USE
End-Use Issues
Fuel Distribution Issues
CONCLUSIONS
4 Conversion Technologies and R&amp
D Opportunities
PRODUCTION OF HYDROGEN AND SYNTHESIS GAS
The DOE Program
Conclusions and Recommendations
HEAVY OIL CONVERSION
Commercial Processes
Processes with Limited Commercial Application
Fuel Properties
Environmental Considerations
Opportunities for Cost Reduction
DOE Research Program Recommendations
TAR SANDS RECOVERY AND PROCESSING
Mining
Recovery
Extraction
Retorting
Upgrading
Economics.
Recommended Areas of Research for DOE
OIL SHALE
State of Technology Development
Shale Properties and Process
Mining and Disposal
Advanced Retorting Technologies
Potential for Cost Reductions in Oil Shale Processes
Recommendations for DOE Research Program for Oil Shale Development
Research Areas
Timetable for Development of Oil Shale Technology
SYNGAS-BASED FUELS
Methanol from Syngas
Methanol-Derived Fuels
Methanol to Gasoline (MTG)
Methanol Conversion to Olefins and Diesel
Methanol for Electricity Generation
F-T Synthesis and Product Upgrading
Commercial F-T Processes
F-T Processes Under Development
Economics
Conclusion and Recommendations for the DOE Program
DIRECT COAL LIQUEFACTION
Technology
Potential Cost Reduction
DOE Program on Direct Liquefaction
Conclusion
COAL-OIL COPROCESSING
Recent Developments
Current Developments
Recommendation for the DOE Program
COAL PYROLYSIS
Description of the Technology
Recommendations for DOE Research
DIRECT CONVERSION OF NATURAL GAS
Technology and State of Development
Recommendations for the DOE
5 Environmental Impacts of Alternative Fuels
AIR QUALITY, HEALTH, AND SAFETY EFFECTS
Automobile Exhaust Emissions and Air Quality
Air Quality Impacts of Diesel Engines
Safety
Toxicity
GREENHOUSE GAS EMISSIONS
6 Major Conclusions and Recommendations for R&amp
D on Liquid Transportation Fuels
OVERVIEW
R&amp
D Issues
Timing of Commercial Applications.
Potential Size of the Applications
Potential for Cost Reduction
Need for DOE Participation
RESOURCES
Petroleum, Heavy Oils, and Tar
Natural Gas and Synthesis Gas
Coal and Oil Shale Conversion
ENVIRONMENTAL CONSIDERATIONS
MAJOR CONCLUSIONS AND RECOMMENDATIONS
Medium Funding Areas
Appendixes
A Statement of Task
B Committee Meetings and Activities
C U.S. and World Resources of Hydrocarbons
D Cost Analysis Methods
Structure of Analysis
Specific Factors
Discount Rate
Annual Capital Charge Factors
Plant Investment Costs
Cost Estimates for the Various Technologies
E Technologies for Converting Heavy Oil
Commercial Carbon Rejection Processes
Delayed Coking
Fluid Coking
Flexicoking
Resid FCC and Heavy Oil Cracking
Developmental Carbon Rejection Processes with Limited Commercial Demonstration
Asphalt Residue Treatment (ART) Process
Commercial Hydrogen Addition Processes
Fixed Bed Residuum or Vacuum Residuum Desulfurization (RDS/VRDS)
Bunker Flow or Hycon Process
Ebullating Bed Processes
Developmental Hydrogen Addition Processes with Limited Commercial Demonstration
F Retorting Technologies for Oil Shale
Hot Gas Retorting Processes
Hot Solid Retorting Processes
G Research, Development, and Demonstration Definitions
Research
Fundamental Research
Exploratory Research
Catalyst Development
Process Research
Development and Demonstration
Process Development
Process Demonstration
Program Area
H Coprocessing Technology
I Technical Data for Coal Pyrolysis
J Description of Technologies for Direct Conversion of Natural Gas
Cold Flame Oxidation
Direct Oxidation
Oxychlorination
Indirect Oxidation (Oxidative Coupling to Ethylene).
Catalytic Pyrolysis
Strong Acid Conversion
Biological Conversion
K Temperature Characteristics of High-Temperature Gas Reactors
Glossary
References and Bibliography
Index.
Notes:
Bibliographic Level Mode of Issuance: Monograph
Includes bibliographical references (p. 205-212) and index.
ISBN:
9786610212859
9781280212857
1280212853
9780309543194
0309543193
9780585143859
0585143854
OCLC:
44957530

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