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Performance Evaluation of Waste Heat Integration from Electrolyzers Between District Heating Condensers in Combined Heat and Power Plants †

Abu Al-Soud, Mohammed LU ; Kayali, Fawzi and Genrup, Magnus LU (2026) In Energies 19(11).
Abstract

As Sweden advances toward large-scale hydrogen production for industrial applications, low-grade waste heat (≈80 °C) from electrolyzers becomes available. A proposed solution is to integrate this heat between the two condensers in a combined heat and power plant. This can be done with different configurations, which were setup and studied. At full load, introducing 15 MW of heat increased electrical power output and cycle efficiency by up to 169 kW and 0.173% points, respectively. The same configuration under part-load showed the best improvement up to 11 MW of added heat, providing up to 302 kW in power output compared to the reference part-load case without waste heat. At a further increase in heat input at part-load, the best... (More)

As Sweden advances toward large-scale hydrogen production for industrial applications, low-grade waste heat (≈80 °C) from electrolyzers becomes available. A proposed solution is to integrate this heat between the two condensers in a combined heat and power plant. This can be done with different configurations, which were setup and studied. At full load, introducing 15 MW of heat increased electrical power output and cycle efficiency by up to 169 kW and 0.173% points, respectively. The same configuration under part-load showed the best improvement up to 11 MW of added heat, providing up to 302 kW in power output compared to the reference part-load case without waste heat. At a further increase in heat input at part-load, the best configuration shifted. At 15 MW of heat input, the best case resulted in a 393 kW reduction in electric output relative to the reference case. This is still significantly better than using a heat pump, which would require up to 1.43 MW for the same heat utilization. The results show that direct integration of electrolyzer waste heat into CHP plants can enhance electrical efficiency and power output without increasing electricity consumption, offering a viable and relatively simple alternative to heat pump-based solutions in district heating systems.

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Please use this url to cite or link to this publication:
author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
district heat, effectivization, efficiency improvement, efficient heat utilization, electrolyzer, hydrogen, steam turbine
in
Energies
volume
19
issue
11
article number
2563
publisher
MDPI AG
external identifiers
  • scopus:105041397210
ISSN
1996-1073
DOI
10.3390/en19112563
language
English
LU publication?
yes
id
0eb648c6-df25-4572-9e11-eb59c718440b
date added to LUP
2026-07-03 12:58:15
date last changed
2026-07-03 12:58:57
@article{0eb648c6-df25-4572-9e11-eb59c718440b,
  abstract     = {{<p>As Sweden advances toward large-scale hydrogen production for industrial applications, low-grade waste heat (≈80 °C) from electrolyzers becomes available. A proposed solution is to integrate this heat between the two condensers in a combined heat and power plant. This can be done with different configurations, which were setup and studied. At full load, introducing 15 MW of heat increased electrical power output and cycle efficiency by up to 169 kW and 0.173% points, respectively. The same configuration under part-load showed the best improvement up to 11 MW of added heat, providing up to 302 kW in power output compared to the reference part-load case without waste heat. At a further increase in heat input at part-load, the best configuration shifted. At 15 MW of heat input, the best case resulted in a 393 kW reduction in electric output relative to the reference case. This is still significantly better than using a heat pump, which would require up to 1.43 MW for the same heat utilization. The results show that direct integration of electrolyzer waste heat into CHP plants can enhance electrical efficiency and power output without increasing electricity consumption, offering a viable and relatively simple alternative to heat pump-based solutions in district heating systems.</p>}},
  author       = {{Abu Al-Soud, Mohammed and Kayali, Fawzi and Genrup, Magnus}},
  issn         = {{1996-1073}},
  keywords     = {{district heat; effectivization; efficiency improvement; efficient heat utilization; electrolyzer; hydrogen; steam turbine}},
  language     = {{eng}},
  number       = {{11}},
  publisher    = {{MDPI AG}},
  series       = {{Energies}},
  title        = {{Performance Evaluation of Waste Heat Integration from Electrolyzers Between District Heating Condensers in Combined Heat and Power Plants †}},
  url          = {{http://dx.doi.org/10.3390/en19112563}},
  doi          = {{10.3390/en19112563}},
  volume       = {{19}},
  year         = {{2026}},
}