How can we use our carbon-based resources in the most responsible manner? How can we most efficiently transform natural gas, coal, or biomass into diesel, jet fuel or gasoline to drive our machines? The Big Questions today are energyrelated, and the Fischer-Tropsch process provides industrially tested solutions. This book offers a comprehensive and up-to-date overview of the Fischer-Tropsch process, from the basic science and engineering to commercial issues. It covers industrial, economic, environmental, and fundamental aspects, with a specific focus on 'green' concepts such as sustainability, process improvement, waste-reduction, and environmental care. The result is a practical reference for researchers, engineers, and financial analysts working in the energy sector, who are interested in carbon conversion, fuel processing or synthetic fuel technologies. It is also an ideal introductory book on the Fischer-Tropsch process for graduate courses in chemistry and chemical engineering.

Hersteller:
Wiley-VCH GmbH
product_safety@wiley.com
Boschstrasse 12
DE 69469 Weinheim

InhaltsangabePREFACE PART ONE: Introduction WHAT IS FISCHER - TROPSCH? Feedstocks for Fuel and for Chemicals Manufacture The Problems Fuels for Transportation Feedstocks for the Chemical Industry Sustainability and Renewables: Alternatives to Fossil Fuels The Way Forward XTL and the Fischer - Tropsch Process (FTP) Alternatives to Fischer - Tropsch PART TWO: Industrial and Economics Aspects SYNGAS: THE BASIS OF FISCHER - TROPSCH Syngas as Feedstock 19 Routes to Syngas: XTL (X ¼ Gas, Coal, Biomass, and Waste) WaterGas Shift Reaction (WGSR) Synthesis Gas Cleanup Thermal and Carbon Efficiency The XTL Gas Loop CO2 Production and CO2 as Feedstock 46 FISCHER TROPSCH TECHNOLOGY Introduction Industrially Applied FT Technologies FT Catalysts Requirements for Industrial Catalysts FT Reactors Selecting the Right FT Technology Selecting the FT Operating Conditions Selecting the FT Catalyst Type Other Factors That Affect FT Technology Selection WHAT CAN WE DO WITH FISCHER - TROPSCH PRODUCTS? Introduction Composition of Fischer - Tropsch Syncrude Syncrude Recovery after Fischer - Tropsch Synthesis Fuel Products from Fischer - Tropsch Syncrude Lubricants from Fischer - Tropsch Syncrude Petrochemical Products from Fischer - Tropsch Syncrude INDUSTRIAL CASE STUDIES Introduction A Brief History of Industrial FT Development Industrial FT Facilities Perspectives on Industrial Developments OTHER INDUSTRIALLY IMPORTANT SYNGAS REACTIONS Survey of CO Hydrogenation Reactions Syngas to Methanol Syngas to Dimethyl Ether (DME) Syngas to Ethanol Syngas to Acetic Acid Higher Hydrocarbons and Higher Oxygenates Hydroformylation Other Reactions Based on Syngas FISCHER TROPSCH PROCESS ECONOMICS Introduction and Background Market Outlook (Natural Gas) Capital Cost Operating Costs Revenues Economics and Sensitivity Analysis PART THREE: Fundamental Aspects PREPARATION OF IRON FT CATALYSTS Introduction HighTemperature Fischer Tropsch (HTFT) Catalysts LowTemperature Catalysts Individual Steps COBALT FT CATALYSTS Introduction Early German Work Support Preparation Addition of Cobalt and Promoters Calcination Reduction Catalyst Transfer Catalyst Attrition Addendum Recent Literature Summary OTHER FT CATALYSTS Introduction Ni Catalysts Ruthenium Catalysts Rhodium Catalysts Other Catalysts and Promoters SURFACE SCIENCE STUDIES RELATED TO FISCHER?TROPSCH REACTIONS Introduction: Surfaces in Catalysts and Catalytic Cycles Heterogeneous Catalyst Characterization Species Detected on Surfaces Theoretical Calculations MECHANISTIC STUDIES RELATED TO THE FISCHER - TROPSCH HYDROCARBON SYNTHESIS AND SOME COGNATE PROCESSES Introduction Basic FT Reaction: Dissociative and Associative Paths Some Mechanisms-Related Experimental Studies Current Views on the Mechanisms of the FT-S Now: Toward a Consensus? Dual FT Mechanisms Cognate Processes: The Formation of Oxygenates in FT-S Dual Mechanisms Summary Improvements by Catalyst Modifications Catalyst Activation and Deactivation Processes Desorption and Displacement Effects Directions for Future Researches Caveat PART FOUR: Environmental Aspects FISCHER TROPSCH CATALYST LIFE CYCLE Introduction Catalyst Manufacturing Catalyst Consumption Catalyst Disposal FISCHER TROPSCH SYNCRUDE: TO REFINE OR TO UPGRADE? Introduction Wax Hydrocracking and Hydroisomerization Olefin Dimerization and Oligomerization ENVIRONMENTAL SUSTAINABILITY Introduction Impact of FT Facilities on the Environment Water and Wastewater Management Solid Waste Management Air Quality Management Environmental Footprint of FT Refineries PART FIVE: Future Prospects NEW DIRECTIONS, CHALLENGES, AND OPPORTUNITIES Introduction Why Go Along the Fischer - Tropsch Route? Considerations against Fischer - Tropsch Facilities Opportunities to Improve Fische

Leseprobe