Comparing district heating options under uncertainty using stochastic ordering

District heating is expected to play an important role in the decarbonisation of the energy sector in the coming years since low carbon sources such as waste heat and biomass are increasingly being used to generate heat. The design of district heating often has competing objectives: the need for ine...

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Published inSustainable Energy, Grids and Networks Vol. 30; p. 100634
Main Authors Volodina, Victoria, Wheatcroft, Edward, Wynn, Henry
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2022
Subjects
District heating
Local sensitivity
Scenarios
Stochastic ordering
Waste heat recovery
Stochastic ordering
Scenarios
Local sensitivity
District heating
Waste heat recovery
Online AccessGet full text
ISSN2352-4677
2352-4677
DOI10.1016/j.segan.2022.100634

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Abstract District heating is expected to play an important role in the decarbonisation of the energy sector in the coming years since low carbon sources such as waste heat and biomass are increasingly being used to generate heat. The design of district heating often has competing objectives: the need for inexpensive energy and meeting low carbon targets. In addition, the planning of district heating schemes is subject to multiple sources of uncertainty, such as variability in heat demand and energy prices. This paper proposes a decision support tool to analyse and compare system designs for district heating under uncertainty using stochastic ordering (dominance) so that decision-makers can make robust decisions. The uncertainty in input parameters of the energy system model together with general scenarios are introduced to generate distributions of net present costs and emissions for each design. To perform inference about the induced distributions of outputs, we apply the orderings in the mean and dispersion. The proposed approach is demonstrated in an application to the waste heat recovery problem in district heating in Brunswick, Germany. The results obtained show that heat pump, a low carbon design option, is more robust in comparison to combined heat and power (CHP) and a mix of CHP and heat pump under all three scenarios, highlighting that robustness is an attractive feature of low-temperature waste heat recovery. •Decisions regarding energy planning involve uncertainty.•New low-carbon technologies are being introduced as part of district heating.•Stochastic ordering is proposed to compare the system designs’ performance under uncertainty.•The orderings in mean and dispersion are considered for waste heat recovery.
AbstractList District heating is expected to play an important role in the decarbonisation of the energy sector in the coming years since low carbon sources such as waste heat and biomass are increasingly being used to generate heat. The design of district heating often has competing objectives: the need for inexpensive energy and meeting low carbon targets. In addition, the planning of district heating schemes is subject to multiple sources of uncertainty, such as variability in heat demand and energy prices. This paper proposes a decision support tool to analyse and compare system designs for district heating under uncertainty using stochastic ordering (dominance) so that decision-makers can make robust decisions. The uncertainty in input parameters of the energy system model together with general scenarios are introduced to generate distributions of net present costs and emissions for each design. To perform inference about the induced distributions of outputs, we apply the orderings in the mean and dispersion. The proposed approach is demonstrated in an application to the waste heat recovery problem in district heating in Brunswick, Germany. The results obtained show that heat pump, a low carbon design option, is more robust in comparison to combined heat and power (CHP) and a mix of CHP and heat pump under all three scenarios, highlighting that robustness is an attractive feature of low-temperature waste heat recovery. •Decisions regarding energy planning involve uncertainty.•New low-carbon technologies are being introduced as part of district heating.•Stochastic ordering is proposed to compare the system designs’ performance under uncertainty.•The orderings in mean and dispersion are considered for waste heat recovery.
ArticleNumber 100634
Author Wynn, Henry
Volodina, Victoria
Wheatcroft, Edward
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Keywords Stochastic ordering
Scenarios
Local sensitivity
District heating
Waste heat recovery
Language English
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Snippet District heating is expected to play an important role in the decarbonisation of the energy sector in the coming years since low carbon sources such as waste...
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SubjectTerms District heating
Local sensitivity
Scenarios
Stochastic ordering
Waste heat recovery
Title Comparing district heating options under uncertainty using stochastic ordering
URI https://dx.doi.org/10.1016/j.segan.2022.100634
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