Domestic hot water production system in a hospital: Energy audit and evaluation of measures to boost the solar contribution

Hospitals consume large quantities of energy to produce hot water and offset the distribution and recirculation thermal losses. This paper analyses a solar thermal system combined with gas boilers for domestic hot water production in a medium-size hospital. The solar contribution to the total demand...

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Published inEnergy (Oxford) Vol. 261; p. 125275
Main Authors Atienza-Márquez, Antonio, Domínguez Muñoz, Fernando, Fernández Hernández, Francisco, Cejudo López, José Manuel
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.12.2022
Subjects
carbon
climate
Domestic hot water (DHW)
energy
Energy audit
Energy retrofit
heat
Hospital building
hospitals
Solar thermal
Techno-economic analysis
Domestic hot water (DHW)
Techno-economic analysis
Hospital building
Energy retrofit
Energy audit
Solar thermal
Online AccessGet full text
ISSN0360-5442
DOI10.1016/j.energy.2022.125275

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Abstract Hospitals consume large quantities of energy to produce hot water and offset the distribution and recirculation thermal losses. This paper analyses a solar thermal system combined with gas boilers for domestic hot water production in a medium-size hospital. The solar contribution to the total demand (27%) is below design expectations (75%), resulting in significant gas consumption. The energy audit conducted in the first part of the paper highlights the vast thermal loss through poorly insulated pipes as the primary cause of the poor solar fraction. This issue is endemic to hot water-intensive buildings. The second part of the paper addresses the techno-economic evaluation of energy retrofit measures to reach a solar fraction of 60%. The simulation results indicate that cost-optimised solutions generally expand the solar caption area by 43–57% and improve insulations to reduce thermal losses by 70%. Depending on carbon taxes, the cost of hot water production would be 31–41 cent-€/kWh, which represents a 15–45% reduction from the current costs. Under stringent climate policies, installing heat pumps may further enhance economic competitiveness. The indicators and charts developed in this work are helpful decision-making tools concerning the energy refurbishment of solar domestic hot water systems. •Solar thermal system combined with gas boilers to supply hot water in a hospital.•Solar fraction below design expectations (28% vs. 75%) due to huge thermal losses.•Enhanced thermal insulation and extra collectors to reach 60% solar fraction.•Refurbished system with hot water production cost estimated at 31–41 cent-€/kWh.•A heat pump would minimise carbon taxes in ambitious climate policy scenarios.
AbstractList Hospitals consume large quantities of energy to produce hot water and offset the distribution and recirculation thermal losses. This paper analyses a solar thermal system combined with gas boilers for domestic hot water production in a medium-size hospital. The solar contribution to the total demand (27%) is below design expectations (75%), resulting in significant gas consumption. The energy audit conducted in the first part of the paper highlights the vast thermal loss through poorly insulated pipes as the primary cause of the poor solar fraction. This issue is endemic to hot water-intensive buildings. The second part of the paper addresses the techno-economic evaluation of energy retrofit measures to reach a solar fraction of 60%. The simulation results indicate that cost-optimised solutions generally expand the solar caption area by 43–57% and improve insulations to reduce thermal losses by 70%. Depending on carbon taxes, the cost of hot water production would be 31–41 cent-€/kWh, which represents a 15–45% reduction from the current costs. Under stringent climate policies, installing heat pumps may further enhance economic competitiveness. The indicators and charts developed in this work are helpful decision-making tools concerning the energy refurbishment of solar domestic hot water systems.
Hospitals consume large quantities of energy to produce hot water and offset the distribution and recirculation thermal losses. This paper analyses a solar thermal system combined with gas boilers for domestic hot water production in a medium-size hospital. The solar contribution to the total demand (27%) is below design expectations (75%), resulting in significant gas consumption. The energy audit conducted in the first part of the paper highlights the vast thermal loss through poorly insulated pipes as the primary cause of the poor solar fraction. This issue is endemic to hot water-intensive buildings. The second part of the paper addresses the techno-economic evaluation of energy retrofit measures to reach a solar fraction of 60%. The simulation results indicate that cost-optimised solutions generally expand the solar caption area by 43–57% and improve insulations to reduce thermal losses by 70%. Depending on carbon taxes, the cost of hot water production would be 31–41 cent-€/kWh, which represents a 15–45% reduction from the current costs. Under stringent climate policies, installing heat pumps may further enhance economic competitiveness. The indicators and charts developed in this work are helpful decision-making tools concerning the energy refurbishment of solar domestic hot water systems. •Solar thermal system combined with gas boilers to supply hot water in a hospital.•Solar fraction below design expectations (28% vs. 75%) due to huge thermal losses.•Enhanced thermal insulation and extra collectors to reach 60% solar fraction.•Refurbished system with hot water production cost estimated at 31–41 cent-€/kWh.•A heat pump would minimise carbon taxes in ambitious climate policy scenarios.
ArticleNumber 125275
Author Fernández Hernández, Francisco
Domínguez Muñoz, Fernando
Cejudo López, José Manuel
Atienza-Márquez, Antonio
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Keywords Domestic hot water (DHW)
Techno-economic analysis
Hospital building
Energy retrofit
Energy audit
Solar thermal
Language English
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Snippet Hospitals consume large quantities of energy to produce hot water and offset the distribution and recirculation thermal losses. This paper analyses a solar...
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StartPage 125275
SubjectTerms carbon
climate
Domestic hot water (DHW)
energy
Energy audit
Energy retrofit
heat
Hospital building
hospitals
Solar thermal
Techno-economic analysis
Title Domestic hot water production system in a hospital: Energy audit and evaluation of measures to boost the solar contribution
URI https://dx.doi.org/10.1016/j.energy.2022.125275
https://www.proquest.com/docview/2723117133
Volume 261
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