| 1 |
Strategies for decarbonising the Swiss heating system
Narula K, Chambers J, Streicher KN, Patel MK
Energy, 169, 1119, 2019 |
| 2 |
Lowering the pressure in district heating and cooling networks by alternating the connection of the expansion vessel
Sommer T, Mennel S, Sulzer M
Energy, 172, 991, 2019 |
| 3 |
Small low-temperature district heating network development prospects
Volkova A, Krupenski I, Pieper H, Ledvanov A, Latosov E, Siirde A
Energy, 178, 714, 2019 |
| 4 |
Optimisation and analysis of system integration between electric vehicles and UK decentralised energy schemes
Chakrabarti A, Proeglhoef R, Turu GB, Lambert R, Mariaud A, Acha S, Markides CN, Shah N
Energy, 176, 805, 2019 |
| 5 |
Economic assessment of alternative heat decarbonisation strategies through coordinated operation with electricity system - UK case study
Zhang X, Strbac G, Teng F, Djapic P
Applied Energy, 222, 79, 2018 |
| 6 |
Methodology for evaluating the transition process dynamics towards 4th generation district heating networks
Volkova A, Masatin V, Siirde A
Energy, 150, 253, 2018 |
| 7 |
Three-dimensional numerical model of heat losses from district heating network pre-insulated pipes buried in the ground
Danielewicz J, Sniechowska B, Sayegh MA, Fidorow N, Jouhara H
Energy, 108, 172, 2016 |
| 8 |
Cogeneration and district heating networks: Measures to remove institutional and financial barriers that restrict their joint use in the EU-28
Colmenar-Santos A, Rosales-Asensio E, Borge-Diez D, Mur-Perez F
Energy, 85, 403, 2015 |
| 9 |
Integrated management of cogeneration plants and district heating networks
Prato AP, Strobino F, Broccardo M, Giusino LP
Applied Energy, 97, 590, 2012 |
| 10 |
On the robustness, effectiveness and reliability of chemical and mechanical heat pumps for low-temperature heat source district heating: A comparative simulation-based analysis and evaluation
Ajah AN, Mesbah A, Grievink J, Herder PM, Falcao PW, Wennekes S
Energy, 33(6), 908, 2008 |
