Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process
Само за регистроване кориснике
2022
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
This work presents a novel Mixed-Integer Non-linear Program (MINLP) that accounts for the presence of multiple fuels in tri-generation systems. The key novelty of this work pertains to the use of hybrid energy systems in tri-generation processes, which are associated with multiple energy sources. In this work, different fuel sources such as natural gas, biomass and municipal solid waste (MSW) have been considered in the model, together with concentrated solar power (CSP), as a renewable energy option. The use of the aforementioned energy sources in tri-generation systems for heat, power and water production, were assessed simultaneously by the proposed model. CSP was utilized as the sole renewable energy option, due to the ease of obtaining both heat and power from such systems. The design of optimal tri-generation systems has been studied using the proposed model, under different conditions for carbon reduction. The model has been formulated using multi-period considerations, so as to... account for seasonal variations. Moreover, the effect of several different operating parameters on the land use requirements of such systems were also investigated. The results indicate that despite the high cost of CSP, it was still found to be a highly desirable choice in the presence of carbon taxation. The water production cost of a hybrid natural gas-CSP tri-generation system was estimated at 1.277 USD/m3. This value could be 16% higher in the presence of carbon taxation. Additionally, biomass and solid waste options were found to be very promising energy outlets for desalination, especially in winter and fall seasons which have the lowest DNI values. The selection of these energy streams is also highly affected by the presence of carbon taxation policy. On the other hand, the incorporation of these two energy streams along with CSP could result in a fully local energy independent system with a water production cost of 1.44 and 1.537 USD/m3, respectively.
Кључне речи:
Biomass / Concentrated solar power / Hybrid energy system / Multi-period optimization / Municipal solid waste / Tri-generation processИзвор:
Energy, 2022, 261, 125338-Издавач:
- Elsevier Ltd
Институција/група
Tehnološko-metalurški fakultetTY - JOUR AU - Klaimi, Rachid AU - Alnouri, Sabla Y. AU - Stijepović, Mirko PY - 2022 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/5198 AB - This work presents a novel Mixed-Integer Non-linear Program (MINLP) that accounts for the presence of multiple fuels in tri-generation systems. The key novelty of this work pertains to the use of hybrid energy systems in tri-generation processes, which are associated with multiple energy sources. In this work, different fuel sources such as natural gas, biomass and municipal solid waste (MSW) have been considered in the model, together with concentrated solar power (CSP), as a renewable energy option. The use of the aforementioned energy sources in tri-generation systems for heat, power and water production, were assessed simultaneously by the proposed model. CSP was utilized as the sole renewable energy option, due to the ease of obtaining both heat and power from such systems. The design of optimal tri-generation systems has been studied using the proposed model, under different conditions for carbon reduction. The model has been formulated using multi-period considerations, so as to account for seasonal variations. Moreover, the effect of several different operating parameters on the land use requirements of such systems were also investigated. The results indicate that despite the high cost of CSP, it was still found to be a highly desirable choice in the presence of carbon taxation. The water production cost of a hybrid natural gas-CSP tri-generation system was estimated at 1.277 USD/m3. This value could be 16% higher in the presence of carbon taxation. Additionally, biomass and solid waste options were found to be very promising energy outlets for desalination, especially in winter and fall seasons which have the lowest DNI values. The selection of these energy streams is also highly affected by the presence of carbon taxation policy. On the other hand, the incorporation of these two energy streams along with CSP could result in a fully local energy independent system with a water production cost of 1.44 and 1.537 USD/m3, respectively. PB - Elsevier Ltd T2 - Energy T1 - Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process SP - 125338 VL - 261 DO - 10.1016/j.energy.2022.125338 ER -
@article{ author = "Klaimi, Rachid and Alnouri, Sabla Y. and Stijepović, Mirko", year = "2022", abstract = "This work presents a novel Mixed-Integer Non-linear Program (MINLP) that accounts for the presence of multiple fuels in tri-generation systems. The key novelty of this work pertains to the use of hybrid energy systems in tri-generation processes, which are associated with multiple energy sources. In this work, different fuel sources such as natural gas, biomass and municipal solid waste (MSW) have been considered in the model, together with concentrated solar power (CSP), as a renewable energy option. The use of the aforementioned energy sources in tri-generation systems for heat, power and water production, were assessed simultaneously by the proposed model. CSP was utilized as the sole renewable energy option, due to the ease of obtaining both heat and power from such systems. The design of optimal tri-generation systems has been studied using the proposed model, under different conditions for carbon reduction. The model has been formulated using multi-period considerations, so as to account for seasonal variations. Moreover, the effect of several different operating parameters on the land use requirements of such systems were also investigated. The results indicate that despite the high cost of CSP, it was still found to be a highly desirable choice in the presence of carbon taxation. The water production cost of a hybrid natural gas-CSP tri-generation system was estimated at 1.277 USD/m3. This value could be 16% higher in the presence of carbon taxation. Additionally, biomass and solid waste options were found to be very promising energy outlets for desalination, especially in winter and fall seasons which have the lowest DNI values. The selection of these energy streams is also highly affected by the presence of carbon taxation policy. On the other hand, the incorporation of these two energy streams along with CSP could result in a fully local energy independent system with a water production cost of 1.44 and 1.537 USD/m3, respectively.", publisher = "Elsevier Ltd", journal = "Energy", title = "Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process", pages = "125338", volume = "261", doi = "10.1016/j.energy.2022.125338" }
Klaimi, R., Alnouri, S. Y.,& Stijepović, M.. (2022). Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process. in Energy Elsevier Ltd., 261, 125338. https://doi.org/10.1016/j.energy.2022.125338
Klaimi R, Alnouri SY, Stijepović M. Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process. in Energy. 2022;261:125338. doi:10.1016/j.energy.2022.125338 .
Klaimi, Rachid, Alnouri, Sabla Y., Stijepović, Mirko, "Investigation of seasonal variations and multiple fuel options in a novel tri-generation CSP integrated hybrid energy process" in Energy, 261 (2022):125338, https://doi.org/10.1016/j.energy.2022.125338 . .