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Performance evaluation of R1336mzz(Z)/TEGDME absorption chiller coupled with low temperature proton exchange membrane fuel cell system

Performance evaluation of R1336mzz(Z)/TEGDME absorption chiller coupled with low temperature proton exchange membrane fuel cell system
Performance evaluation of R1336mzz(Z)/TEGDME absorption chiller coupled with low temperature proton exchange membrane fuel cell system
The typical operating temperature of a low-temperature proton exchange membrane fuel cell (LT-PEMFC) is approximately 80°C, with a thermoelectric ratio of approximately 1. To utilize the waste heat of LT-PEMFCs, an absorption chiller (AC) using R1336mzz(Z)/TEGDME as the working pair coupled with LT-PEMFCs vehicles was proposed in this work. The saturated vapor pressure and viscosity of this novel working pair were measured and regressed. The excess enthalpy and specific enthalpy were determined by NRTL model. Based on the thermophysical properties, the performance of the coupled system was investigated under various operating conditions. Results showed that this AC system was able to utilize the waste heat generated by LT-PEMFCs for cooling in the range of 269.1 K to 293.2 K, which can meet the cooling demands of most commercial vehicles. The efficiency of the coupled system was approximately 0.67, which represents a 55.8% improvement over the standalone LT-PEMFCs system. In typical summer conditions, the coupled system extended the endurance mileage of LT-PEMFCs vehicles by 14% and saved 12% of hydrogen in a daily route. Thus, the AC using R1336mzz(Z)/TEGDME coupled LT-PEMFCs vehicles has a great significance for enhancing the performance and enlarging the mileage.
Absorption chiller, Coupled system, Low-temperature PEMFC, Thermal cooling, Thermodynamic performance analysis, Working pair
0140-7007
134-146
Yang, Yufan
5ed5bc0c-f958-4163-9216-1d1c8073dc38
Luo, Chunhuan
c2fd9bce-f981-4e8e-b4ae-de9a8c9cefff
Zhou, Chunting
0de827ab-7928-46d8-bf54-d17eedc8b2cc
He, Muran
b6aef7a6-2373-4cc0-a181-0851df8796d2
Lang, Lin
9f8dc15e-e777-4817-8b29-08f49f504eb7
Yu, Xi
7e4f553f-cc11-4c6e-ad6d-9fb5c3c07a60
Yang, Changchang
0665af46-3566-463a-8f68-5b19cb2d13ec
Chen, Yufan
9b6f1de8-8f04-44f6-99a6-ae3ce49762a9
Yang, Yufan
5ed5bc0c-f958-4163-9216-1d1c8073dc38
Luo, Chunhuan
c2fd9bce-f981-4e8e-b4ae-de9a8c9cefff
Zhou, Chunting
0de827ab-7928-46d8-bf54-d17eedc8b2cc
He, Muran
b6aef7a6-2373-4cc0-a181-0851df8796d2
Lang, Lin
9f8dc15e-e777-4817-8b29-08f49f504eb7
Yu, Xi
7e4f553f-cc11-4c6e-ad6d-9fb5c3c07a60
Yang, Changchang
0665af46-3566-463a-8f68-5b19cb2d13ec
Chen, Yufan
9b6f1de8-8f04-44f6-99a6-ae3ce49762a9

Yang, Yufan, Luo, Chunhuan, Zhou, Chunting, He, Muran, Lang, Lin, Yu, Xi, Yang, Changchang and Chen, Yufan (2025) Performance evaluation of R1336mzz(Z)/TEGDME absorption chiller coupled with low temperature proton exchange membrane fuel cell system. International Journal of Refrigeration, 176, 134-146. (doi:10.1016/j.ijrefrig.2025.04.028).

Record type: Article

Abstract

The typical operating temperature of a low-temperature proton exchange membrane fuel cell (LT-PEMFC) is approximately 80°C, with a thermoelectric ratio of approximately 1. To utilize the waste heat of LT-PEMFCs, an absorption chiller (AC) using R1336mzz(Z)/TEGDME as the working pair coupled with LT-PEMFCs vehicles was proposed in this work. The saturated vapor pressure and viscosity of this novel working pair were measured and regressed. The excess enthalpy and specific enthalpy were determined by NRTL model. Based on the thermophysical properties, the performance of the coupled system was investigated under various operating conditions. Results showed that this AC system was able to utilize the waste heat generated by LT-PEMFCs for cooling in the range of 269.1 K to 293.2 K, which can meet the cooling demands of most commercial vehicles. The efficiency of the coupled system was approximately 0.67, which represents a 55.8% improvement over the standalone LT-PEMFCs system. In typical summer conditions, the coupled system extended the endurance mileage of LT-PEMFCs vehicles by 14% and saved 12% of hydrogen in a daily route. Thus, the AC using R1336mzz(Z)/TEGDME coupled LT-PEMFCs vehicles has a great significance for enhancing the performance and enlarging the mileage.

Text
Clean final manuscript - Accepted Manuscript
Restricted to Repository staff only until 3 May 2027.
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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More information

Accepted/In Press date: 29 April 2025
e-pub ahead of print date: 3 May 2025
Published date: 9 May 2025
Keywords: Absorption chiller, Coupled system, Low-temperature PEMFC, Thermal cooling, Thermodynamic performance analysis, Working pair

Identifiers

Local EPrints ID: 502627
URI: http://eprints.soton.ac.uk/id/eprint/502627
DOI: doi:10.1016/j.ijrefrig.2025.04.028
ISSN: 0140-7007
PURE UUID: ba8c9f60-0ab9-42cf-87da-4b80feee1ffa
ORCID for Xi Yu: ORCID iD orcid.org/0000-0003-3574-6032

Catalogue record

Date deposited: 02 Jul 2025 16:35
Last modified: 03 Jul 2025 02:39

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Contributors

Author: Yufan Yang
Author: Chunhuan Luo
Author: Chunting Zhou
Author: Muran He
Author: Lin Lang
Author: Xi Yu ORCID iD
Author: Changchang Yang
Author: Yufan Chen

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