Comparison of Low-temperature District Heating Concepts in a Long-Term Energy System Perspective

Rasmus Søgaard Lund; Dorte Skaarup Østergaard; Xiaochen Yang; Brian Vad Mathiesen

doi:10.5278/ijsepm.2017.12.2

Comparison of Low-temperature District Heating Concepts in a Long-Term Energy System Perspective

Rasmus Søgaard Lund, Dorte Skaarup Østergaard, Xiaochen Yang, Brian Vad Mathiesen

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Abstract

District heating systems are important components in an energy efficient heat supply. With increasing amounts of renewable energy, the foundation for district heating is changing and the approach to its planning will have to change. Reduced temperatures of district heating are proposed as a solution to adapt it to future renewable energy systems. This study compares three alternative concepts for district heating temperature level: Low temperature (55/25 oC), Ultra-low temperature with electric boosting (45/25 oC), and Ultra-low temperature with heat pump boosting (35/20 oC) taking into account the grid losses, production efficiencies and building requirements. The scenarios are modelled and analysed in the analysis tool EnergyPLAN and compared on primary energy supply and socioeconomic costs. The results show that the low temperature solution (55/25 oC) has the lowest costs, reducing the total costs by about 100 M€/year in 2050.

Translated title of the contribution	Sammenligning af koncepter for lavtemperatur-fjernvarme i et langsigtet energisystems perspektiv
Original language	English
Journal	International Journal of Sustainable Energy Planning and Management
Volume	12
Pages (from-to)	5-18
ISSN	2246-2929
DOIs	https://doi.org/10.5278/ijsepm.2017.12.2
Publication status	Published - Mar 2017

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https://journals.aau.dk/index.php/sepm/article/view/1661/1421Licence: CC BY-NC-ND 3.0

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title = "Comparison of Low-temperature District Heating Concepts in a Long-Term Energy System Perspective",

abstract = "District heating systems are important components in an energy efficient heat supply. With increasing amounts of renewable energy, the foundation for district heating is changing and the approach to its planning will have to change. Reduced temperatures of district heating are proposed as a solution to adapt it to future renewable energy systems. This study compares three alternative concepts for district heating temperature level: Low temperature (55/25 oC), Ultra-low temperature with electric boosting (45/25 oC), and Ultra-low temperature with heat pump boosting (35/20 oC) taking into account the grid losses, production efficiencies and building requirements. The scenarios are modelled and analysed in the analysis tool EnergyPLAN and compared on primary energy supply and socioeconomic costs. The results show that the low temperature solution (55/25 oC) has the lowest costs, reducing the total costs by about 100 M€/year in 2050.",

keywords = "Energisystemanalyse, Samfunds{\o}konomi, Br{\ae}ndselsforbrug, Energieffektivitet, EnergyPLAN simulering",

author = "Lund, {Rasmus S{\o}gaard} and {\O}stergaard, {Dorte Skaarup} and Xiaochen Yang and Mathiesen, {Brian Vad}",

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AU - Lund, Rasmus Søgaard

AU - Østergaard, Dorte Skaarup

AU - Yang, Xiaochen

AU - Mathiesen, Brian Vad

PY - 2017/3

Y1 - 2017/3

N2 - District heating systems are important components in an energy efficient heat supply. With increasing amounts of renewable energy, the foundation for district heating is changing and the approach to its planning will have to change. Reduced temperatures of district heating are proposed as a solution to adapt it to future renewable energy systems. This study compares three alternative concepts for district heating temperature level: Low temperature (55/25 oC), Ultra-low temperature with electric boosting (45/25 oC), and Ultra-low temperature with heat pump boosting (35/20 oC) taking into account the grid losses, production efficiencies and building requirements. The scenarios are modelled and analysed in the analysis tool EnergyPLAN and compared on primary energy supply and socioeconomic costs. The results show that the low temperature solution (55/25 oC) has the lowest costs, reducing the total costs by about 100 M€/year in 2050.

AB - District heating systems are important components in an energy efficient heat supply. With increasing amounts of renewable energy, the foundation for district heating is changing and the approach to its planning will have to change. Reduced temperatures of district heating are proposed as a solution to adapt it to future renewable energy systems. This study compares three alternative concepts for district heating temperature level: Low temperature (55/25 oC), Ultra-low temperature with electric boosting (45/25 oC), and Ultra-low temperature with heat pump boosting (35/20 oC) taking into account the grid losses, production efficiencies and building requirements. The scenarios are modelled and analysed in the analysis tool EnergyPLAN and compared on primary energy supply and socioeconomic costs. The results show that the low temperature solution (55/25 oC) has the lowest costs, reducing the total costs by about 100 M€/year in 2050.

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KW - Samfundsøkonomi

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KW - Energieffektivitet

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JO - International Journal of Sustainable Energy Planning and Management

JF - International Journal of Sustainable Energy Planning and Management

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Comparison of Low-temperature District Heating Concepts in a Long-Term Energy System Perspective

Abstract

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4DH – Strategic Research Centre for 4th Generation District Heating Technologies and Systems

Cite this

Comparison of Low-temperature District Heating Concepts in a Long-Term Energy System Perspective

Abstract

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AUB Link

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Projects

4DH – Strategic Research Centre for 4th Generation District Heating Technologies and Systems

Cite this