Abstract
This paper presents a structured process design approach, SusDesign, for the sustainable development of process systems. At each level of process design, design alternatives are generated using a number of thermodynamic tools and applying pollution prevention strategies followed by analysis, evaluation and screening processes for the selection of potential design options. The evaluation and optimization are carried out based on an integrated environmental and cost potential (IECP) index, which has been estimated with the IECP tool. The present paper also describes a flowsheet optimization technique developed using different thermodynamic tools such as exergy/energy analysis, heat and mass integration, and cogeneration/trigeneration in a systematic manner. The proposed SusDesign approach has been successfully implemented in designing a 30 MW thermal power plant. In the case study, the IECP tool has been set up in Aspen HYSYS process simulator to carry out the analysis, evaluation and screening of design alternatives. The application of this approach has developed an efficient, cost effective and environmentally friendly thermal system design with an overall thermal efficiency of 70% and CO{sub 2} and NO emissions of 0.28 kg/kW h and 0.2 g/kW h respectively. The cost of power generation is estimated as 4 cents kWh. These achievements are
More>>
Abul Hossain, K;
Khan, F;
Hawboldt, K
[1]
- Mem University of Newfoundland, St John, NF (Canada). Faculty of Engineering & Applied Science
Citation Formats
Abul Hossain, K, Khan, F, and Hawboldt, K.
SusDesign - An approach for a sustainable process system design and its application to a thermal power plant.
United Kingdom: N. p.,
2010.
Web.
doi:10.1016/j.applthermaleng.2010.04.011.
Abul Hossain, K, Khan, F, & Hawboldt, K.
SusDesign - An approach for a sustainable process system design and its application to a thermal power plant.
United Kingdom.
https://doi.org/10.1016/j.applthermaleng.2010.04.011
Abul Hossain, K, Khan, F, and Hawboldt, K.
2010.
"SusDesign - An approach for a sustainable process system design and its application to a thermal power plant."
United Kingdom.
https://doi.org/10.1016/j.applthermaleng.2010.04.011.
@misc{etde_21349910,
title = {SusDesign - An approach for a sustainable process system design and its application to a thermal power plant}
author = {Abul Hossain, K, Khan, F, and Hawboldt, K}
abstractNote = {This paper presents a structured process design approach, SusDesign, for the sustainable development of process systems. At each level of process design, design alternatives are generated using a number of thermodynamic tools and applying pollution prevention strategies followed by analysis, evaluation and screening processes for the selection of potential design options. The evaluation and optimization are carried out based on an integrated environmental and cost potential (IECP) index, which has been estimated with the IECP tool. The present paper also describes a flowsheet optimization technique developed using different thermodynamic tools such as exergy/energy analysis, heat and mass integration, and cogeneration/trigeneration in a systematic manner. The proposed SusDesign approach has been successfully implemented in designing a 30 MW thermal power plant. In the case study, the IECP tool has been set up in Aspen HYSYS process simulator to carry out the analysis, evaluation and screening of design alternatives. The application of this approach has developed an efficient, cost effective and environmentally friendly thermal system design with an overall thermal efficiency of 70% and CO{sub 2} and NO emissions of 0.28 kg/kW h and 0.2 g/kW h respectively. The cost of power generation is estimated as 4 cents kWh. These achievements are significant compared to the conventional thermal power plant, which demonstrates the potential of the SusDesign approach for the sustainable development of process systems.}
doi = {10.1016/j.applthermaleng.2010.04.011}
journal = []
issue = {4/5}
volume = {30}
place = {United Kingdom}
year = {2010}
month = {Oct}
}
title = {SusDesign - An approach for a sustainable process system design and its application to a thermal power plant}
author = {Abul Hossain, K, Khan, F, and Hawboldt, K}
abstractNote = {This paper presents a structured process design approach, SusDesign, for the sustainable development of process systems. At each level of process design, design alternatives are generated using a number of thermodynamic tools and applying pollution prevention strategies followed by analysis, evaluation and screening processes for the selection of potential design options. The evaluation and optimization are carried out based on an integrated environmental and cost potential (IECP) index, which has been estimated with the IECP tool. The present paper also describes a flowsheet optimization technique developed using different thermodynamic tools such as exergy/energy analysis, heat and mass integration, and cogeneration/trigeneration in a systematic manner. The proposed SusDesign approach has been successfully implemented in designing a 30 MW thermal power plant. In the case study, the IECP tool has been set up in Aspen HYSYS process simulator to carry out the analysis, evaluation and screening of design alternatives. The application of this approach has developed an efficient, cost effective and environmentally friendly thermal system design with an overall thermal efficiency of 70% and CO{sub 2} and NO emissions of 0.28 kg/kW h and 0.2 g/kW h respectively. The cost of power generation is estimated as 4 cents kWh. These achievements are significant compared to the conventional thermal power plant, which demonstrates the potential of the SusDesign approach for the sustainable development of process systems.}
doi = {10.1016/j.applthermaleng.2010.04.011}
journal = []
issue = {4/5}
volume = {30}
place = {United Kingdom}
year = {2010}
month = {Oct}
}