Development and assessment of an integrated biomass-based multi-generation energy system

Energy

Volumn 56, Issue , 2013, Pages 155-166

  Ahmadi, Pouria ^a   Dincer, Ibrahim ^a   Rosen, Marc A ^a  

^a UNIVERSITY OF ONTARIO INSTITUTE OF TECHNOLOGY   (Canada)

Author keywords

Biomass; Efficiency; Energy; Exergy; Greenhouse gas emission; Multi generation

Indexed keywords

CARBON DIOXIDE; EFFICIENCY; ELECTROLYTIC CELLS; ENVIRONMENTAL IMPACT ASSESSMENTS; EXERGY; GAS EMISSIONS; GREENHOUSE GASES; PROTON EXCHANGE MEMBRANE FUEL CELLS (PEMFC);

ABSORPTION CHILLERS; DOMESTIC WATER HEATERS; ENERGY; ENERGY AND EXERGY EFFICIENCY; HOT-WATER PRODUCTION; MULTI GENERATIONS; ORGANIC RANKINE CYCLE(ORC); PROTON EXCHANGE MEMBRANES;

BIOMASS;

ABSORPTION; BIOMASS POWER; CARBON EMISSION; COMBUSTION; ENERGY EFFICIENCY; ENVIRONMENTAL IMPACT ASSESSMENT; EXERGY; GREENHOUSE GAS; MEMBRANE; PARAMETERIZATION; POWER GENERATION; THERMODYNAMICS;

EID: 84879002152     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2013.04.024     Document Type: Article

References (26)

1. Cohce M.K., Dincer I., Rosen M.A. Energy and exergy analyses of a biomass-based hydrogen production system. Bioresource Technology 2011, 102:8466-8474.
2. Filho P.A., Badr O. Biomass resources for energy in North-Eastern Brazil. Applied Energy 2004, 77(1):51-67.
3. Hughes E.E., Tillman D.A. Biomass cofiring: status and prospects. Fuel Processing Technology 1996, 54:127-142.
4. Lian Z.T., Chua K.J., Chou S.K. Athermoeconomic analysis of biomass energy for trigeneration. Applied Energy 2010, 87:84-95.
5. Mujeebu M.A., Jayaraj S., Ashok S., Abdullah M.Z., Khalil M. Feasibility study of cogeneration in a plywood industry with power export to grid. Applied Energy 2009, 86(5):657-662.
6. Liu H., Shao Y., Li J. Abiomass-fired micro-scale CHP system with organic Rankine cycle (ORC)-Thermodynamic modelling studies. Biomass and Bioenergy 2011, 35:3985-3994.
7. Gnanapragasam N.V., Reddy B.V., Rosen M.A. Optimum conditions for a natural gas combined cycle power generation system based on available oxygen when using biomass as supplementary fuel. Energy 2009, 34:816-826.
8. Al-Sulaiman F.A., Dincer I., Hamdullahpur F. Energy and exergy analyses of a biomass trigeneration system using an organic Rankine cycle. Energy 2012, 45:975-985.
9. Ahmadi P., Rosen M.A., Dincer I. Multi-objective exergy-based optimization of a polygeneration energy system using an evolutionary algorithm. Energy 2012, 46:21-31.
10. Ahmadi P., Rosen M.A., Dincer I. Greenhouse gas emission and exergo-environmental analyses of a trigeneration energy system. International Journal of Greenhouse Gas Control 2011, 5:1540-1549.
11. Ahmadi P., Dincer I., Rosen M.A. Exergo-environmental analysis of an integrated organic Rankine cycle for trigeneration. Energy Conversion and Management 2012, 64:447-453.
12. Khaliq A., Kumar R., Dincer I. Performance analysis of an industrial waste heat-based trigeneration system. International Journal of Energy Research 2009, 33:737-744.
13. Al-Sulaiman F.A., Hamdullahpur F., Dincer I. Performance assessment of a novel system using parabolic trough solar collectors for combined cooling, heating, and power production. Renewable Energy 2012, 48:161-172.
14. Ratlamwala T., Dincer I., Gadalla M.A. Performance analysis of a novel integrated geothermal-based system for multi-generation applications. Applied Thermal Engineering 2012, 40:71-79.
15. Ratlamwala T., Dincer I., Gadalla M.A. Thermodynamic analysis of an integrated geothermal based quadruple effect absorption system for multigenerational purposes. Thermochimica Acta 2012, 535:27-35.
16. Dincer I., Zamfirescu C. Renewable-energy-based multigeneration systems. International Journal of Energy Research 2012, 36(15):1403-1415.
17. Basu P. Combustion and gasification in fluidized beds 2006, Taylor & Francis Group, LLC.
18. Ahmadi P., Dincer I., Rosen M.A. Energy and exergy analyses of hydrogen production via solar-boosted ocean thermal energy conversion and PEM electrolysis. International Journal of Hydrogen Energy 2013, 38(4):1795-1805.
19. Ioroi T., Yasuda K., Siroma Z., Fujiwara N., Miyazaki Y. Thin film electrocatalyst layer for utilized regenerative polymer electrolyte fuel cells. Journal of Power Sources 2002, 112(2):583-587.
20. Ni M., Leung M.K., Leung D.Y.C. Energy and exergy analysis of hydrogen production by a proton exchange membrane (PEM) electrolyzer plant. Energy Conversion and Management 2008, 49:2748-2756.
21. Ahmadi P., Dincer I. Thermodynamic and exergoenvironmental analyses, and multi-objective optimization of a gas turbine power plant. Applied Thermal Engineering 2011, 31:2529-2540.
22. Ahmadi P., Dincer I., Rosen M.A. Exergy, exergoeconomic and environmental analyses and evolutionary algorithm based multi-objective optimization of combined cycle power plants. Energy 2011, 36:5886-5898.
23. Rosen M.A., Dincer I., Kanoglu M. Role of exergy in increasing efficiency and sustainability and reducing environmental impact. Energy Policy 2008, 36(1):128-137.
24. Szargut J., Morris D.R., Steward F.R. Exergy Analysis of Thermal, Chemical, and Metallurgical Processes 1988, Hemisphere Publishing Corporation, New York.
25. Bejan A., Tsatsaronis G., Moran M. Thermal Design and Optimization 1996, Wiley, New York.
26. Ahmadi P., Dincer I. Thermodynamic modeling and thermoeconomic optimization of a dual pressure combined cycle power plant with supplementary firing using evolutionary algorithm. Energy Conversion and Management 2011, 52:2296-2308.