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13/14 Spring Semester . Energy (TKK-2129). Instructor: Rama Oktavian Email: rama.oktavian86@gmail.com Office Hr.: M.13-15, Tu. 13-15, W. 13-15, Th. 13-15, F. 09-11. Outlines. 1. Clean coal technology. 2. Coal to chemical (olefins). 3. Coal gasification. 4. Coal to liquid fuel.
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13/14 Spring Semester Energy(TKK-2129) Instructor: Rama Oktavian Email: rama.oktavian86@gmail.com • Office Hr.: M.13-15, Tu. 13-15, W. 13-15, Th. 13-15, F. 09-11
Outlines 1. Clean coal technology 2. Coal to chemical (olefins) 3. Coal gasification 4. Coal to liquid fuel
Clean coal technology Clean coal technology A new generation of coal-burning power plants with energy processes that reduce air emissions and other pollutants. Coal power plants technology must adapt to the changing political climate towards environmental issues.
Clean coal technology Clean coal technology Clean coal technologies are several generations of technological advances that have led to more efficient combustion of coal with reduced emissions of sulfur dioxide and nitrogen oxide. (http://www.nma.org/pdf/fact_sheets/cct.pdf) Wet scrubbers Integrated Gasification Combined Cycle (IGCC) Flue Gas Desulfurization Low Nitrogen Oxide (NOx) Burners Selective Catalytic Reduction (SCR) Electrostatic Precipitators Carbon Capture and Storage (CCS)
Clean coal technology Wet scrubbers When the emissions reach the flue of the furnace limestone and water are sprayed The SO2 reacts with the calcium carbonate (limestone) to form gypsum (calcium sulfate) The gypsum is collected and used for construction http://www.life.umd.edu/biology/dudashlab/Docs%20for%20CPS/Presenations/Clean%20Coal%20Sam.ppt
Clean coal technology Integrated Gas Combined Cycle (IGCC) • IGCC uses a coal gasification system to convert coal into a synthesis gas (syngas) and produce steam. • The hot syngas is processed to remove sulfur compounds, mercury and particulate matter before it is used to fuel a combustion turbine generator, which produces electricity. • The heat in the exhaust gases from the combustion turbine is recovered to generate additional steam • This steam, along with that from the syngas process, then drives a steam turbine generator to produce additional electricity. http://www.duke-energy.com/about-us/how-igcc-works.asp
Clean coal technology Integrated Gas Combined Cycle (IGCC) http://www.global-greenhouse-warming.com/images/IGCCI.jpg?aba085 The integration of these technologies provides the high efficiency of the combined-cycle design with the low cost of coal
Clean coal technology Integrated Gas Combined Cycle (IGCC) • Advantages: • efficiencies currently approaching 50%, IGCC power plants use less coal and produce much lower emissions of carbon dioxide than conventional power plants • Higher output: Using syngas in a gas turbine increases its output • The gasification process in IGCC enables the production of not only electricity, but a range of chemicals, by-products for industrial use, and transport fuels http://www.global-greenhouse-warming.com/images/IGCCI.jpg?aba085
Clean coal technology Carbon capture and storage Process consisting of the separation of CO2 from industrial and energy-related sources, transport to a storage location and long-term isolation from the atmosphere http://www.global-greenhouse-warming.com/images/IGCCI.jpg?aba085 http://wiki.dickinson.edu/index.php/Carbon_Capture_and_Storage
Clean coal technology Carbon capture and storage Three processes in the CCS technology [1] Capturing the CO2 produced from industrial or power generation processes Transporting the CO2 to an underground geological formation which is suitable geological formations CO2 can be used as fluid in “Enhanced Oil Recovery”, where CO2 pushing the remaining oil [2] [1] http://webberenergyblog.wordpress.com/2012/04/06/3272/ [2] “Carbon Capture and Sequestration (CCS)”, Congressional Research Service, June 19, 2009 <http://www.fas.org/sgp/crs/misc/RL33801.pdf>
Clean coal technology Carbon capture and storage http://www.captureready.com/userfiles/image/Carbon%20Capture/Post-combustion%20Capture%20Process_Vattenfall.jpg
Clean coal technology Carbon capture and storage http://www.captureready.com/userfiles/image/Carbon%20Capture/Pre-combustion%20Capture%20Process_Vattenfall.jpg
Clean coal technology Carbon capture and storage http://www.captureready.com/userfiles/image/Carbon%20Capture/Oxyfuel%20Combustion%20Capture%20Process_Vattenfall.jpg
Coal gasification Gasification the process of producing syngas–a mixture consisting primarily of methane (CH4) carbon monoxide (CO), hydrogen (H2), carbon dioxide (CO2) and water vapor (H2O)–from coal and water, air and/or oxygen
Coal gasification Coal gasification reaction In coal gasification, four principal reactions are crucial: Steam gasification Carbon dioxide gasification Hydrogasification Partial oxidation reaction S. Lee, J. G. Speight, S. K. Loyalka. 2007. Handbook of alternative fuel technology. CRC Press
Coal gasification Coal gasification reaction Steam gasification The steam gasification reaction is endothermic S. Lee, J. G. Speight, S. K. Loyalka. 2007. Handbook of alternative fuel technology. CRC Press
Coal gasification Coal gasification reaction 2. Carbon dioxide gasification Carbon dioxide reacts with carbon to produce carbon monoxide and this reaction is called Boudouard reaction. This reaction is also endothermic in nature, similar to the steam gasification reaction S. Lee, J. G. Speight, S. K. Loyalka. 2007. Handbook of alternative fuel technology. CRC Press
Coal gasification Coal gasification reaction 3. Hydrogasification Direct addition of hydrogen to coal under high pressure forms methane This reaction is exothermic and requires high temperature and pressure S. Lee, J. G. Speight, S. K. Loyalka. 2007. Handbook of alternative fuel technology. CRC Press
Coal gasification Coal gasification reaction 4. Partial oxidation Combustion of coal involves reaction with oxygen, which may be supplied as pure oxygen or as air, and forms carbon monoxide and carbon dioxide. Principal chemical reactions between carbon and oxygen involve: S. Lee, J. G. Speight, S. K. Loyalka. 2007. Handbook of alternative fuel technology. CRC Press
Coal gasification Coal gasification scheme Brian H. Bowen, Marty W. Irwin, Devendra Canchi. 2007. Coal-To-Liquids (CTL) & Fischer-Tropsch Processing (FT). The Energy Center at Discovery Park Purdue University
Coal to chemical (CTC) Coal to olefins technology Olefins are one of the most important oil derivatives widely used in industry To reduce the dependence of olefins industry on oil
Coal to chemical (CTC) Coal to olefins technology A number of coal-to-olefins (CTO) processes have been developed: UOP/Hydro MTO DMTO developed by Dalian Institute of Chemical Physics of Chinese Academy of Science SMTO by Sinopec LurgiMTP FMTP by Tsinghua University
Coal to chemical (CTC) Coal to olefins technology A CTO plant based on the technology was built by Shenhua Group and successfully put into commercial production on January 2011 with capacity 0.7 Mt/a olefins (0.3 Mt/a ethylene, 0.3 Mt/a propylene, and 0.1 Mt/a C4 ).
Coal to chemical (CTC) Coal to olefins technology Process flow diagram
Coal to liquid fuel Coal to liquid fuel (Coal liquefaction) Block flow diagram X. Zhao, R. D. Mc Gihon, S. A. Tabak. 2008. Coal to liquid gasoline. Exxonmobil research and engineering, USA
Coal to liquid fuel Coal to liquid fuel Block flow diagram Brian H. Bowen, Marty W. Irwin, Devendra Canchi. 2007. Coal-To-Liquids (CTL) & Fischer-Tropsch Processing (FT). The Energy Center at Discovery Park Purdue University
Coal to liquid fuel Coal to liquid fuel Fischer-Tropsch process converting a mixture of hydrogen and carbon monoxide—derived from coal, methane or biomass—to liquid fuels uses hydrogen (H2) and carbon-monoxide (CO) to make different types of hydrocarbons with various H2:CO ratios In a CTL facility the H2 and CO can be supplied from the coal gasifier
Coal to liquid fuel Coal to liquid fuel Fischer-Tropsch process The original Fischer-Tropsch process is described by the following chemical equation:
Coal to liquid fuel Coal to liquid fuel
Coal to liquid fuel Fischer-Tropsch process CATALYSTS & PRODUCTS CATALYST PRODUCT Iron Linear alkenes and oxygenates Cobalt Alkanes Nickel Methane Ruthenium High molecular weight hydrocarbons Rhodium Large amounts of hydrocarbons & little oxygenates
Coal to liquid fuel Coal to liquid fuel (Coal liquefaction) Block flow diagram