Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant
This paper studies the techno-economic feasibility of the solar-assisted regeneration process of the largest industrial CO2 removal monoethanolamine-based plant in Iran. The plant incorporating parabolic troughs is modelled using System Advisor Model software and the weather data are derived from th...
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2021
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oai:doaj.org-article:f8257b1cfb2042068cec711d72ed7e472021-11-12T04:41:20ZTechno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant2352-484710.1016/j.egyr.2021.10.091https://doaj.org/article/f8257b1cfb2042068cec711d72ed7e472021-11-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2352484721011094https://doaj.org/toc/2352-4847This paper studies the techno-economic feasibility of the solar-assisted regeneration process of the largest industrial CO2 removal monoethanolamine-based plant in Iran. The plant incorporating parabolic troughs is modelled using System Advisor Model software and the weather data are derived from the European Commission’s Photovoltaic Geographical Information System. Sensitivity analyses are realized to evaluate the effect of important parameters, i.e., the solar multiple and the hours of storage, and to reveal the optimum case. The studied impacts are linked to the overall net energy generation and the levelized cost of heat (LCOH). The optimum case is found to have a solar multiple of 3.1 and 18-hours of storage, resulting in a solar share of 0.7 and a LCOH of 3.85 (¢/kWh). When compared to the base case (solar multiple of 2 and 6 h of storage), the optimum solution results in a similar LCOH but it achieves the generation of an additional 16,112 MWhthannually. The thermal energy supplied by the solar system leads to an annual reduction in the natural gas consumption of approximately 3.8 million m3that results in a CO2 emission reduction of 7.1 kton.Reza ShirmohammadiAlireza AslaniRoghayeh GhasempourLuis M. RomeoFontina PetrakopoulouElsevierarticleParabolic trough collectorSystem Advisor ModelParametric analysisSolar-assisted carbon capture systemsIndustrial process heatElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENEnergy Reports, Vol 7, Iss , Pp 7390-7404 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Parabolic trough collector System Advisor Model Parametric analysis Solar-assisted carbon capture systems Industrial process heat Electrical engineering. Electronics. Nuclear engineering TK1-9971 |
| spellingShingle |
Parabolic trough collector System Advisor Model Parametric analysis Solar-assisted carbon capture systems Industrial process heat Electrical engineering. Electronics. Nuclear engineering TK1-9971 Reza Shirmohammadi Alireza Aslani Roghayeh Ghasempour Luis M. Romeo Fontina Petrakopoulou Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| description |
This paper studies the techno-economic feasibility of the solar-assisted regeneration process of the largest industrial CO2 removal monoethanolamine-based plant in Iran. The plant incorporating parabolic troughs is modelled using System Advisor Model software and the weather data are derived from the European Commission’s Photovoltaic Geographical Information System. Sensitivity analyses are realized to evaluate the effect of important parameters, i.e., the solar multiple and the hours of storage, and to reveal the optimum case. The studied impacts are linked to the overall net energy generation and the levelized cost of heat (LCOH). The optimum case is found to have a solar multiple of 3.1 and 18-hours of storage, resulting in a solar share of 0.7 and a LCOH of 3.85 (¢/kWh). When compared to the base case (solar multiple of 2 and 6 h of storage), the optimum solution results in a similar LCOH but it achieves the generation of an additional 16,112 MWhthannually. The thermal energy supplied by the solar system leads to an annual reduction in the natural gas consumption of approximately 3.8 million m3that results in a CO2 emission reduction of 7.1 kton. |
| format |
article |
| author |
Reza Shirmohammadi Alireza Aslani Roghayeh Ghasempour Luis M. Romeo Fontina Petrakopoulou |
| author_facet |
Reza Shirmohammadi Alireza Aslani Roghayeh Ghasempour Luis M. Romeo Fontina Petrakopoulou |
| author_sort |
Reza Shirmohammadi |
| title |
Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| title_short |
Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| title_full |
Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| title_fullStr |
Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| title_full_unstemmed |
Techno-economic assessment and optimization of a solar-assisted industrial post-combustion CO2 capture and utilization plant |
| title_sort |
techno-economic assessment and optimization of a solar-assisted industrial post-combustion co2 capture and utilization plant |
| publisher |
Elsevier |
| publishDate |
2021 |
| url |
https://doaj.org/article/f8257b1cfb2042068cec711d72ed7e47 |
| work_keys_str_mv |
AT rezashirmohammadi technoeconomicassessmentandoptimizationofasolarassistedindustrialpostcombustionco2captureandutilizationplant AT alirezaaslani technoeconomicassessmentandoptimizationofasolarassistedindustrialpostcombustionco2captureandutilizationplant AT roghayehghasempour technoeconomicassessmentandoptimizationofasolarassistedindustrialpostcombustionco2captureandutilizationplant AT luismromeo technoeconomicassessmentandoptimizationofasolarassistedindustrialpostcombustionco2captureandutilizationplant AT fontinapetrakopoulou technoeconomicassessmentandoptimizationofasolarassistedindustrialpostcombustionco2captureandutilizationplant |
| _version_ |
1718431265321910272 |