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32 Primary Energy Use for Some U.S. Chemical Subsectors in 1994 ....................................... 29 33 Energy Consumption for Key Chemicals................................................................................ 30 34 Various Energy Units Used to Represent Energy Use in the Chemical Industry ................. 30 35 Computation of Electricity Use for Electrolysis and Energy Content of Evolved Hydrogen ................................................................................................................................... 31 36 Summary of Worrell, USMECS, and Battelle Analysis for Electricity Required for Chlorine Production and Energy Content of Evolved Hydrogen .................................... 32 37 Energy Performance Levels for the Production of Acetic Acid ............................................ 33 38 Energy Performance Levels for the Production of Maleic Anhydride .................................. 34 39 Gas Emission for Glass Production ......................................................................................... 35 40 Emission Factor and Emission Levels for Glass Fiber Production ....................................... 36 41 Methane Emissions from Landfills.......................................................................................... 38 42 Energy Content of Methane Emissions from Landfills .......................................................... 39 43 Energy Consumption and Emission in the U.S. Cement Industry in 1999 ........................... 41 44 Partial Description of Potential Energy Savings in Cement Production ............................... 42 45 Energy Efficiency Measures in Dry Process Cement Plants ................................................. 43 46 Energy Efficiency Measures in Wet Process Cement Plants ................................................. 44 47 Combustion and Process-Related CO2 Emissions from U.S. Cement Manufacturing......... 45 48 Energy Used in 1994 in Steel Industry .................................................................................... 46 49 Energy Use and CO2 Emissions for U.S. Steel Production in 1994 ...................................... 47 50 Fuel Savings for Energy-Efficient Technologies Applied to Integrated Steel Production in the U.S............................................................................................................... 48 51 Fuel Savings for Energy-Efficient Technologies Applied to Secondary Steel Production in the U.S............................................................................................................... 49 52 CH4 Emissions from Natural Gas Systems ............................................................................. 49 53 CH4 Emissions from Petroleum Production Field Operations............................................... 51 54 2001 CH4 Emissions from Petroleum Refining ...................................................................... 52 55 Summary of CH4 Emissions from Petroleum Systems .......................................................... 53 56 Summary of Energy Content of CH4 Emissions from Petroleum Systems........................... 53 57 Energy Consumption, Carbon Emissions Coefficients, and Carbon Emissions from Energy Consumption in the U.S. Pulp and Paper Industry in 1994 ............................. 56 58 U.S. Mineral Reserves and Reserve Base ............................................................................... 57 59 U.S. and World Production of Selected Non-Fuel Minerals, 1996, in Metric Tons ............ 57 60 Estimated 2003 Metalcasting Energy Usage and CO2 Emissions ......................................... 58 61 Estimated Total Emissions from the Mining and Metal Processing Industry....................... 58 62 Emission Breakdown of CH4 from U.S. Coal Mining Industry, 1990 and 2001.................. 59 63 Agriculture Industry Generated Emissions by General Source ............................................. 59 64 Agriculture Industry Generated Emissions by Gas Content .................................................. 60 65 Detailed Breakdown of CH4 Emissions from Enteric Fermentation ..................................... 60 66 Detailed Breakdown of CH4 and N2O Emissions from Manure Management ..................... 61 67 Typical Processes and Resulting Emissions from A Small Electronics Industry Fabrication Facility ................................................................................................................... 62 68 Greenhouse Gas Emissions from the Electronics Industry .................................................... 62 69 Summary of Energy Content in Emissions from U.S. Industrial Processes ......................... 63 70 Summary of Waste Heat Recovery Opportunities.................................................................. 65 ixPDF Image | Analysis for Recovering Energy from Industrial Waste Heat
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