A feasibility study on the potential expansion of the district heating network of Turin

被引:14
作者
Guelpa, Elisa [1 ]
Mutani, Guglielmina [1 ]
Todeschi, Valeria
Verda, Vittorio [1 ]
机构
[1] Politecn Torino, DENERG, Cso Duca Abruzzi, I-10124 Turin, Italy
来源
CISBAT 2017 INTERNATIONAL CONFERENCE FUTURE BUILDINGS & DISTRICTS - ENERGY EFFICIENCY FROM NANO TO URBAN SCALE | 2017年 / 122卷
关键词
district heating; energy efficiency measures; building; feasibility study; future expansion scenarios; CONSUMPTION; SIMULATION; BUILDINGS; SYSTEMS;
D O I
10.1016/j.egypro.2017.07.446
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Reduction in energy consumptions and CO2 emissions and increase in the use of renewable energy sources can be reached through large scale implementation of energy efficiency measures. In urban contexts, district heating (DH) systems are expected to allow integration of waste heat and thermal renewable sources. In this work we propose a GIS-based model for the technical feasibility analysis of possible expansions of existing DH networks. The application to the City of Turin is presented as a case study. (C) 2017 The Authors. Published by Elsevier Ltd.
引用
收藏
页码:847 / 852
页数:6
相关论文
共 50 条
[21]   Flexibility Potential of Space Heating Demand Response in Buildings for District Heating Systems [J].
Romanchenko, Dmytro ;
Nyholm, Emil ;
Odenberger, Mikael ;
Johnsson, Filip .
ENERGIES, 2019, 12 (15)
[22]   A Case Study of Mapping the Heating Storage Capacity in a Multifamily Building within a District Heating Network in Mid-Sweden [J].
Hayati, Abolfazl ;
Akander, Jan ;
Eriksson, Martin .
BUILDINGS, 2022, 12 (07)
[23]   District Heating Expansion Potential with Low-Temperature and End-Use Heat Savings [J].
Nielsen, Steffen ;
Grundahl, Lars .
ENERGIES, 2018, 11 (02)
[24]   Influence of operation of the domestic hot water system on the return temperature in the district heating network [J].
Siuta-Olcha, Alicja ;
Cholewa, Tomasz ;
Bocian, Martyna ;
Modrzynska, Emilia ;
Gnieciak, Maciej .
ENERGY, 2025, 334
[25]   Optimization of district heating network design [J].
Schmidt, Juliane ;
Stange, Peter .
ENERGY REPORTS, 2021, 7 (07) :97-104
[26]   Feasibility study on the low temperature district heating and cooling system with bi-lateral heat trades model [J].
Im, Yong-Hoon ;
Liu, Jie .
ENERGY, 2018, 153 :988-999
[27]   Risk and reliability assessment of the district heating network methodology with case study [J].
Zutautaite, I. ;
Augutis, J. ;
Krikstolaitis, R. ;
Dundulis, G. ;
Valincius, M. ;
Rimkevicius, S. .
RISK, RELIABILITY AND SAFETY: INNOVATING THEORY AND PRACTICE, 2017, :2578-2585
[28]   Short term optimization of district heating network supply temperatures [J].
Tkonen, Enso ;
Selek, Istvan ;
Kovacs, Jeno ;
Neuvonen, Markus ;
Szabo, Zador ;
Bene, Jozsef ;
Peurasaari, Jani .
2014 IEEE INTERNATIONAL ENERGY CONFERENCE (ENERGYCON 2014), 2014, :996-1003
[29]   Minimisation of the capital costs and energy usage in a district heating network [J].
Pirouti, Marouf ;
Bagdanavicius, Audrius ;
Wu, Jianzhong ;
Jenkins, Nick ;
Ekanayake, Janaka .
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART A-JOURNAL OF POWER AND ENERGY, 2015, 229 (03) :337-347
[30]   Prediction of Domestic Hot Water Temperature in a District Heating Network [J].
Montet, Frederic ;
Rychener, Lorenz ;
Pongelli, Alessandro ;
Hennebert, Jean ;
Bacher, Jean-Philippe .
CARBON-NEUTRAL CITIES - ENERGY EFFICIENCY AND RENEWABLES IN THE DIGITAL ERA (CISBAT 2021), 2021, 2042
12345