Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating

Abdulrahman Dahash; Fabrizia Giordano; Ahmed Mohamed Awwad Mohamed Serageldin

doi:10.26868/29761662.2024.18

Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating

Abdulrahman Dahash (Autor:in und Vortragende:r), Fabrizia Giordano, Ahmed Mohamed Awwad Mohamed Serageldin

Sustainable Thermal Energy Systems

Publikation: Beitrag in Buch oder Tagungsband › Vortrag mit Beitrag in Tagungsband › Begutachtung

Abstract

A key lever to overcome the challenges in the buildings sector related to today’s extensive utilization of fossil fuels is the introduction of renewables-based district energy systems. Herein, large-scale seasonal thermal energy storage (STES) systems found its place favorably in these systems. Yet, STES systems require a thorough planning to avoid the high investment cost. Consequently, numerical models gain importance as an alternative to real-life experiments. This work investigates the role of insulation distribution within storage envelope on performance and capital cost. It further conducts a techno-economic assessment of large-scale, underground, seasonal thermal energy storage to reveal the role of insulation.

Originalsprache	Englisch
Titel	BauSIM Conference Proceedings by IBPSA-Austria and Germany
Redakteure/-innen	Thomas Bednar
Erscheinungsort	Vienna, Austria
Seiten	136 - 143
Band	10
DOIs	https://doi.org/10.26868/29761662.2024.18
Publikationsstatus	Veröffentlicht - 25 Nov. 2024

Research Field

Large Energy Supply Infrastructure

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

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10.26868/29761662.2024.18

Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating
Dahash, A. (Autor:in und Vortragende:r)
26 Sept. 2024
Aktivität: Vortrag ohne Tagungsband / Vorlesung › Präsentation auf einer wissenschaftlichen Konferenz / Workshop

Diese Publikation zitieren

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title = "Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating",

abstract = "A key lever to overcome the challenges in the buildings sector related to today{\textquoteright}s extensive utilization of fossil fuels is the introduction of renewables-based district energy systems. Herein, large-scale seasonal thermal energy storage (STES) systems found its place favorably in these systems. Yet, STES systems require a thorough planning to avoid the high investment cost. Consequently, numerical models gain importance as an alternative to real-life experiments. This work investigates the role of insulation distribution within storage envelope on performance and capital cost. It further conducts a techno-economic assessment of large-scale, underground, seasonal thermal energy storage to reveal the role of insulation.",

keywords = "Seasonal thermal energy storage, renewable district heating, techno-economic assessment, optimum insulation, Pit thermal energy storage",

author = "Abdulrahman Dahash and Fabrizia Giordano and Serageldin, {Ahmed Mohamed Awwad Mohamed}",

year = "2024",

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doi = "10.26868/29761662.2024.18",

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Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating. / Dahash, Abdulrahman (Autor:in und Vortragende:r); Giordano, Fabrizia ; Serageldin, Ahmed Mohamed Awwad Mohamed.
BauSIM Conference Proceedings by IBPSA-Austria and Germany. Hrsg. / Thomas Bednar. Band 10 Vienna, Austria, 2024. S. 136 - 143.

Publikation: Beitrag in Buch oder Tagungsband › Vortrag mit Beitrag in Tagungsband › Begutachtung

TY - GEN

T1 - Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating

AU - Giordano, Fabrizia

AU - Serageldin, Ahmed Mohamed Awwad Mohamed

A2 - Dahash, Abdulrahman

A2 - Bednar, Thomas

PY - 2024/11/25

Y1 - 2024/11/25

N2 - A key lever to overcome the challenges in the buildings sector related to today’s extensive utilization of fossil fuels is the introduction of renewables-based district energy systems. Herein, large-scale seasonal thermal energy storage (STES) systems found its place favorably in these systems. Yet, STES systems require a thorough planning to avoid the high investment cost. Consequently, numerical models gain importance as an alternative to real-life experiments. This work investigates the role of insulation distribution within storage envelope on performance and capital cost. It further conducts a techno-economic assessment of large-scale, underground, seasonal thermal energy storage to reveal the role of insulation.

AB - A key lever to overcome the challenges in the buildings sector related to today’s extensive utilization of fossil fuels is the introduction of renewables-based district energy systems. Herein, large-scale seasonal thermal energy storage (STES) systems found its place favorably in these systems. Yet, STES systems require a thorough planning to avoid the high investment cost. Consequently, numerical models gain importance as an alternative to real-life experiments. This work investigates the role of insulation distribution within storage envelope on performance and capital cost. It further conducts a techno-economic assessment of large-scale, underground, seasonal thermal energy storage to reveal the role of insulation.

KW - Seasonal thermal energy storage

KW - renewable district heating

KW - techno-economic assessment

KW - optimum insulation

KW - Pit thermal energy storage

U2 - 10.26868/29761662.2024.18

DO - 10.26868/29761662.2024.18

M3 - Conference Proceedings with Oral Presentation

SN - 978-3-200-10068-8

VL - 10

SP - 136

EP - 143

BT - BauSIM Conference Proceedings by IBPSA-Austria and Germany

CY - Vienna, Austria

ER -

Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating

Abstract

Research Field

UN SDGs

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Enhancing Efficiency and Feasibility of Large-Scale Thermal Energy Storage In District Heating

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