Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor
In order to cater for fluctuating energy demand, power plants are designed either as base power plant or peak power plant. The advantage of base power plant is that due to its constant power generation, the power plant has a higher efficiency. To optimize and design a power plant, many previous stud...
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| Online Access: | http://eprints.utm.my/id/eprint/91482/1/HoWaiShin2019_ExtendedElectricSystemCascade.pdf http://eprints.utm.my/id/eprint/91482/ http://www.dx.doi.org/10.1016/j.egypro.2019.01.810 |
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my.utm.914822021-06-30T12:17:10Z http://eprints.utm.my/id/eprint/91482/ Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor Liu, W. H. Lee, M. Y. Hashim, H. Lim, J. S. Klemes, J. J. Wan Alwi, S. R. Idris, A. M. Ho, W. S. TK Electrical engineering. Electronics Nuclear engineering In order to cater for fluctuating energy demand, power plants are designed either as base power plant or peak power plant. The advantage of base power plant is that due to its constant power generation, the power plant has a higher efficiency. To optimize and design a power plant, many previous study has been conducted. Among the studies, Power Pinch tool named Electric System Cascade Analysis (ESCA) was applied to design an optimal power system. ESCA analysis is conducted by assuming that the power plant generates constant power as it is more efficient. However, further analysis using ESCA shows that with a minimal power plant capacity would result in a trade-off that the energy storage system would be larger and leads to higher energy charging and discharging tendency (result in higher energy lost). Considering the time change of heat rate with the corresponding load factor, this study incorporates new algorithm for flexible power generation into the existing ESCA methodology. To validate the new algorithm, an off-grid distributed energy generation system is mathematically modelled and solved. The result from the new algorithm is compared with that of the mathematical model. The comparison of optimal generator capacity shows a difference of 5.71%. The similarity of the result hence validates that the new algorithm is suitable. 2019 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/91482/1/HoWaiShin2019_ExtendedElectricSystemCascade.pdf Liu, W. H. and Lee, M. Y. and Hashim, H. and Lim, J. S. and Klemes, J. J. and Wan Alwi, S. R. and Idris, A. M. and Ho, W. S. (2019) Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor. In: 10th International Conference on Applied Energy (ICAE2018), 22-25 Aug 2018, Hong Kong, China. http://www.dx.doi.org/10.1016/j.egypro.2019.01.810 |
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TK Electrical engineering. Electronics Nuclear engineering Liu, W. H. Lee, M. Y. Hashim, H. Lim, J. S. Klemes, J. J. Wan Alwi, S. R. Idris, A. M. Ho, W. S. Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| description |
In order to cater for fluctuating energy demand, power plants are designed either as base power plant or peak power plant. The advantage of base power plant is that due to its constant power generation, the power plant has a higher efficiency. To optimize and design a power plant, many previous study has been conducted. Among the studies, Power Pinch tool named Electric System Cascade Analysis (ESCA) was applied to design an optimal power system. ESCA analysis is conducted by assuming that the power plant generates constant power as it is more efficient. However, further analysis using ESCA shows that with a minimal power plant capacity would result in a trade-off that the energy storage system would be larger and leads to higher energy charging and discharging tendency (result in higher energy lost). Considering the time change of heat rate with the corresponding load factor, this study incorporates new algorithm for flexible power generation into the existing ESCA methodology. To validate the new algorithm, an off-grid distributed energy generation system is mathematically modelled and solved. The result from the new algorithm is compared with that of the mathematical model. The comparison of optimal generator capacity shows a difference of 5.71%. The similarity of the result hence validates that the new algorithm is suitable. |
| format |
Conference or Workshop Item |
| author |
Liu, W. H. Lee, M. Y. Hashim, H. Lim, J. S. Klemes, J. J. Wan Alwi, S. R. Idris, A. M. Ho, W. S. |
| author_facet |
Liu, W. H. Lee, M. Y. Hashim, H. Lim, J. S. Klemes, J. J. Wan Alwi, S. R. Idris, A. M. Ho, W. S. |
| author_sort |
Liu, W. H. |
| title |
Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| title_short |
Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| title_full |
Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| title_fullStr |
Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| title_full_unstemmed |
Extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| title_sort |
extended electric system cascade analysis (esca) for optimal power system targeting considering generation flexibility and heat rate factor |
| publishDate |
2019 |
| url |
http://eprints.utm.my/id/eprint/91482/1/HoWaiShin2019_ExtendedElectricSystemCascade.pdf http://eprints.utm.my/id/eprint/91482/ http://www.dx.doi.org/10.1016/j.egypro.2019.01.810 |
| _version_ |
1705056719989637120 |
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13.214268 |