Absorption Cooling System Powered by a Low Concentration Collector: A Case Study

Mavd P.R. Teles; Ahmad Arabkoohsar; Brenda V.F. Silva

doi:10.1007/978-981-99-1894-2_2

Absorption Cooling System Powered by a Low Concentration Collector: A Case Study

Mavd P.R. Teles, Ahmad Arabkoohsar^*, Brenda V.F. Silva

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

1 Citationer (Scopus)

Abstract

Renewable technologies associated with solar energy and cooling systems are in great development and fast dissemination in the literature. On the one hand, such innovations can reduce fossil fuel consumption and greenhouse gases emissions (GHG); but on the other hand, they still have higher expenditures especially because of the cost of solar reflective systems. This paper presents a new generation of solar collectors, denominated as reflective eccentric collectors, for driving the single effect absorption chiller and reducing the levelized cost of cooling solar-driven cooling systems. The study shows a case study in Brazil applying a hybrid system that is compared to the conventional solar-driven cooling systems. Both the configurations design and operation setpoints were optimized using multi-objective optimization methods. The research outcomes have shown the viability of this type of system for hot places. The optimal case presented a GHG emission level of 234 kgCO₂/MWh, a LCOC of 123 USD/MWh.

Originalsprog	Engelsk
Titel	Recent Advances in Mechanical Engineering : Select Proceedings of FLAME 2022
Redaktører	Anoop Kumar Shukla, Bhupendra Prakash Sharma, Ahmad Arabkoohsar, Pradeep Kumar
Antal sider	11
Forlag	Springer
Publikationsdato	2023
Sider	7-17
ISBN (Trykt)	978-981-99-1893-5
ISBN (Elektronisk)	978-981-99-1894-2
DOI	https://doi.org/10.1007/978-981-99-1894-2_2
Status	Udgivet - 2023
Begivenhed	3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering, FLAME 2022 - Noida, Indien Varighed: 3 aug. 2022 → 5 aug. 2022

Konference

Konference	3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering, FLAME 2022
Land/Område	Indien
By	Noida
Periode	03/08/2022 → 05/08/2022

Navn	Lecture Notes in Mechanical Engineering
ISSN	2195-4356

Bibliografisk note

Publisher Copyright:
© 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.

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10.1007/978-981-99-1894-2_2

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Citationsformater

Teles, Mavd P.R. ; Arabkoohsar, Ahmad ; Silva, Brenda V.F. / Absorption Cooling System Powered by a Low Concentration Collector : A Case Study. Recent Advances in Mechanical Engineering: Select Proceedings of FLAME 2022. red. / Anoop Kumar Shukla ; Bhupendra Prakash Sharma ; Ahmad Arabkoohsar ; Pradeep Kumar. Springer, 2023. s. 7-17 (Lecture Notes in Mechanical Engineering).

@inproceedings{56f2bae0c3ea49c0bfec191be3afc926,

title = "Absorption Cooling System Powered by a Low Concentration Collector: A Case Study",

abstract = "Renewable technologies associated with solar energy and cooling systems are in great development and fast dissemination in the literature. On the one hand, such innovations can reduce fossil fuel consumption and greenhouse gases emissions (GHG); but on the other hand, they still have higher expenditures especially because of the cost of solar reflective systems. This paper presents a new generation of solar collectors, denominated as reflective eccentric collectors, for driving the single effect absorption chiller and reducing the levelized cost of cooling solar-driven cooling systems. The study shows a case study in Brazil applying a hybrid system that is compared to the conventional solar-driven cooling systems. Both the configurations design and operation setpoints were optimized using multi-objective optimization methods. The research outcomes have shown the viability of this type of system for hot places. The optimal case presented a GHG emission level of 234 kgCO2/MWh, a LCOC of 123 USD/MWh.",

keywords = "Absorption chiller, Multi-objective optimization methods, Solar cooling, Techno-economic analysis",

author = "Teles, {Mavd P.R.} and Ahmad Arabkoohsar and Silva, {Brenda V.F.}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.; 3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering, FLAME 2022 ; Conference date: 03-08-2022 Through 05-08-2022",

year = "2023",

doi = "10.1007/978-981-99-1894-2_2",

language = "English",

isbn = "978-981-99-1893-5",

series = "Lecture Notes in Mechanical Engineering",

publisher = "Springer",

pages = "7--17",

editor = "Shukla, {Anoop Kumar} and Sharma, {Bhupendra Prakash} and Ahmad Arabkoohsar and Pradeep Kumar",

booktitle = "Recent Advances in Mechanical Engineering",

address = "Germany",

}

Teles, MPR, Arabkoohsar, A & Silva, BVF 2023, Absorption Cooling System Powered by a Low Concentration Collector: A Case Study. i AK Shukla, BP Sharma, A Arabkoohsar & P Kumar (red), Recent Advances in Mechanical Engineering: Select Proceedings of FLAME 2022. Springer, Lecture Notes in Mechanical Engineering, s. 7-17, 3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering, FLAME 2022, Noida, Indien, 03/08/2022. https://doi.org/10.1007/978-981-99-1894-2_2

Absorption Cooling System Powered by a Low Concentration Collector: A Case Study. / Teles, Mavd P.R.; Arabkoohsar, Ahmad; Silva, Brenda V.F.
Recent Advances in Mechanical Engineering: Select Proceedings of FLAME 2022. red. / Anoop Kumar Shukla; Bhupendra Prakash Sharma; Ahmad Arabkoohsar; Pradeep Kumar. Springer, 2023. s. 7-17 (Lecture Notes in Mechanical Engineering).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

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T2 - 3rd Biennial International Conference on Future Learning Aspects of Mechanical Engineering, FLAME 2022

AU - Teles, Mavd P.R.

AU - Arabkoohsar, Ahmad

AU - Silva, Brenda V.F.

PY - 2023

Y1 - 2023

N2 - Renewable technologies associated with solar energy and cooling systems are in great development and fast dissemination in the literature. On the one hand, such innovations can reduce fossil fuel consumption and greenhouse gases emissions (GHG); but on the other hand, they still have higher expenditures especially because of the cost of solar reflective systems. This paper presents a new generation of solar collectors, denominated as reflective eccentric collectors, for driving the single effect absorption chiller and reducing the levelized cost of cooling solar-driven cooling systems. The study shows a case study in Brazil applying a hybrid system that is compared to the conventional solar-driven cooling systems. Both the configurations design and operation setpoints were optimized using multi-objective optimization methods. The research outcomes have shown the viability of this type of system for hot places. The optimal case presented a GHG emission level of 234 kgCO2/MWh, a LCOC of 123 USD/MWh.

AB - Renewable technologies associated with solar energy and cooling systems are in great development and fast dissemination in the literature. On the one hand, such innovations can reduce fossil fuel consumption and greenhouse gases emissions (GHG); but on the other hand, they still have higher expenditures especially because of the cost of solar reflective systems. This paper presents a new generation of solar collectors, denominated as reflective eccentric collectors, for driving the single effect absorption chiller and reducing the levelized cost of cooling solar-driven cooling systems. The study shows a case study in Brazil applying a hybrid system that is compared to the conventional solar-driven cooling systems. Both the configurations design and operation setpoints were optimized using multi-objective optimization methods. The research outcomes have shown the viability of this type of system for hot places. The optimal case presented a GHG emission level of 234 kgCO2/MWh, a LCOC of 123 USD/MWh.

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ER -

Absorption Cooling System Powered by a Low Concentration Collector: A Case Study

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