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1. Experimental study and optimization analysis of vapor compression heat pump coupled with gas boiler. (2025). Zhang, Haoyuan ; Deng, Shifeng ; Zhao, Qinxin ; Shao, Huaishuang ; Qu, Teng ; Li, Guangying.
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   RePEc:eee:energy:v:314:y:2025:i:c:s0360544224039677.

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2. A state-of-the-art analysis and perspectives on the 4th/5th generation district heating and cooling systems. (2024). Yao, Shuai ; Qadrdan, Meysam ; Wu, Jianzhong.
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3. Enhancing third-generation district heating networks with data centre waste heat recovery: analysis of a case study in Italy. (2024). Talluri, Lorenzo ; Zini, Andrea ; Rocchetti, Andrea ; Socci, Luca ; Verzino, Antonio.
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   RePEc:eee:energy:v:313:y:2024:i:c:s0360544224037915.

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4. Yearly photoelectric/thermal and economic performance comparison between CPV and FPV dual-source heat pump systems in different regions. (2024). Hu, Zhongting ; Song, Zhiying ; Zhang, Yuzhe ; He, Wei ; Xuan, Qingdong ; Ji, Jie.
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   RePEc:eee:energy:v:289:y:2024:i:c:s0360544223032759.

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5. Beyond Traditional Energy Sector Coupling: Conserving and Efficient Use of Local Resources. (2022). Maldet, Matthias ; Auer, Hans ; Lettner, Georg ; Schwabeneder, Daniel ; Loschan, Christoph ; Corinaldesi, Carlo.
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6. Compact Thermal Storage with Phase Change Material for Low-Temperature Waste Heat Recovery—Advances and Perspectives. (2022). Petrova, Tatyana ; Nakov, Svetoslav ; Maiti, Subarna ; Panyovska, Stela ; Dzhonova-Atanasova, Daniela ; Georgiev, Aleksandar.
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   RePEc:gam:jeners:v:15:y:2022:i:21:p:8269-:d:964075.

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7. Performance prediction, optimal design and operational control of thermal energy storage using artificial intelligence methods. (2022). He, Zhaoyu ; Guo, Weimin ; Zhang, Peng.
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   RePEc:eee:rensus:v:156:y:2022:i:c:s1364032121012417.

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8. The role of district heating systems to provide balancing services in the European Union. (2022). van den Broek, M A ; Jimenez, J P ; Crijns-Graus, W. H. J., ; Boldrini, A.
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9. Solar, wind and logistic substitution in global energy supply to 2050 – Barriers and implications. (2022). Lowe, R J ; Drummond, P.
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   RePEc:eee:rensus:v:153:y:2022:i:c:s1364032121009941.

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10. Techno-economic assessment and operational CO2 emissions of High-Temperature Aquifer Thermal Energy Storage (HT-ATES) using demand-driven and subsurface-constrained dimensioning. (2022). Guglielmetti, Luca ; Mindel, Julian E ; de Oliveira, Fleury ; Daniilidis, Alexandros.
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11. Performance analysis for the UKs first 5th generation heat network – The BEN case study at LSBU. (2022). Hewitt, Mark ; Godefroy, Julie ; L'Hostis, Jonathan ; Ford, Andy ; Gillich, Aaron.
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    RePEc:eee:energy:v:243:y:2022:i:c:s0360544221030929.

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12. A holistic design approach for 5th generation smart local energy systems: Project GreenSCIES. (2022). Jones, Phil ; Maidment, Graeme ; Dunham, Chris ; Marques, Catarina ; Bond, Carole ; Revesz, Akos ; Mody, Sagar ; Fenner, Russell ; Nijjhar, Rajvant.
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    RePEc:eee:energy:v:242:y:2022:i:c:s0360544221031340.

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13. The future role of energy geostructures in fifth generation district heating and cooling networks. (2022). Meibodi, Saleh S ; Loveridge, Fleur.
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    RePEc:eee:energy:v:240:y:2022:i:c:s0360544221027304.

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14. Review on the integration of high-temperature heat pumps in district heating and cooling networks. (2022). Alcantar-Camarena, V ; Eicker, U ; Bruno, J C ; Barco-Burgos, J ; Saldaa-Robles, A L.
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    RePEc:eee:energy:v:239:y:2022:i:pe:s036054422102627x.

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15. Analysis of the integration of photovoltaic excess into a 5th generation district heating and cooling system for network energy storage. (2022). Chacartegui, Ricardo ; Torres, Miguel ; Quirosa, Gonzalo.
    In: Energy.
    RePEc:eee:energy:v:239:y:2022:i:pc:s0360544221024506.

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16. Optimize heat prosumers economic performance under current heating price models by using water tank thermal energy storage. (2022). Tian, Zhiyong ; Hong, Tianzhen ; Nord, Natasa ; Hou, Juan ; Li, Haoran ; Rohde, Daniel.
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    RePEc:eee:energy:v:239:y:2022:i:pb:s0360544221023513.

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17. A review of HVAC solution-sets and energy performace of nearly zero-energy multi-story apartment buildings in Nordic climates by statistical analysis of environmental performance certificates and literature review. (2022). Javed, Saqib ; Gibbons, Laurence.
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18. Economic comparison of 4GDH and 5GDH systems – Using a case study. (2022). Schmidt, Ralf-Roman ; Gudmundsson, Oddgeir ; Thorsen, Jan Eric ; Dyrelund, Anders.
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19. Design and connection optimization of a district cooling network: Mixed integer programming and heuristic approach. (2022). Verda, Vittorio ; Neri, Manfredi ; Guelpa, Elisa.
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    RePEc:eee:appene:v:306:y:2022:i:pa:s0306261921012939.

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20. Variable cost evaluation of heating plants in district heating systems considering the temperature impact. (2022). Lorenzen, Peter ; Alvarez-Bel, Carlos.
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21. A Novel Oil-free Dual Piston Compressor Driven by a Moving Coil Linear Motor with Capacity Regulation Using R134a. (2021). Huang, Zhijie ; Liu, Yuanli ; Cai, Jinghui ; Sun, Jian.
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22. Building Retrofit and Energy Conservation/Efficiency Review: A Techno-Environ-Economic Assessment of Heat Pump System Retrofit in Housing Stock. (2021). Zhang, Quixin ; Bamisile, Olusola ; Yimen, Nasser ; Mukhtar, Mustapha ; Dagbasi, Mustafa ; Adun, Humphrey ; Ameyaw, Bismark.
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23. Analysis of District Heating and Cooling Energy Systems in Spain: Resources, Technology and Management. (2021). Caparrini, Natalia ; Paredes, Jose Pablo ; Rivo-Lopez, Elena ; Paredes-Sanchez, Beatriz Maria.
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24. Performance Assessment of District Energy Systems with Common Elements for Heating and Cooling. (2021). Cambronero, Maria-Victoria ; Romani, Joaquim ; Salom, Jaume ; Ivani, Aleksandar.
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25. Impact of Water Temperature Changes on Water Loss Monitoring in Large District Heating Systems. (2021). Zwierzchowski, Ryszard ; Niemyjski, Olgierd.
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26. Evaluating Spatial Interdependencies of Sector Coupling Using Spatiotemporal Modelling. (2021). Lichtenwoehrer, Peter ; Abart-Heriszt, Lore ; Stoeglehner, Gernot ; Neugebauer, Georg ; Suppan, Franz ; Kretschmer, Florian.
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27. From single to multi-energy and hybrid grids: Historic growth and future vision. (2021). Haas, R ; Puchegger, M ; Ramsebner, J ; Auer, H ; Maier, C ; Ajanovic, A ; Gawlik, W ; Nacht, T ; Nemec-Begluk, S.
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28. Evaluation and optimization of district energy network performance: Present and future. (2021). Wang, Yang ; Zhang, Shanhong ; Kuckelkorn, Jens M ; Chow, David.
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29. Preliminary study of a closed loop vertical ground source heat pump system for an experimental pilot plant (Rome, Italy). (2021). Proposito, Marco ; Falconi, Luca Maria ; Guidi, Giambattista ; Donato, Filippo ; Violante, Anna Carmela.
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30. The clean energy transition of heating and cooling in touristic infrastructures using shallow geothermal energy in the Canary Islands. (2021). del Cristo, Maria ; Santamarta, Juan C ; Rodriguez-Martin, Jesica ; Gotzl, Gregor ; Casaas, Elias ; Garcia-Gil, Alejandro ; Gemeni, Vasiliki ; Cruz-Perez, Noelia ; Mejias-Moreno, Miguel.
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31. Heat pump efficiency in fifth generation ultra-low temperature district heating networks using a wastewater heat source. (2021). Bertsch, Valentin ; Reiners, Tobias ; Gross, Michel ; Altieri, Lisa ; Wagner, Hermann-Josef.
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32. Adjusting heat demands using the operational data of district heating systems. (2021). Chicherin, Stanislav ; Anvari-Moghaddam, Amjad.
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33. Linking energy efficiency policies toward 4th generation district heating system. (2021). Pakere, Ieva ; Bazbauers, Gatis ; Blumberga, Dagnija ; Lauka, Dace ; Gravelsins, Armands.
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34. Implementing prosumers into heating networks. (2021). Bertsch, Valentin ; Reiners, Tobias ; Gross, Michel ; Altieri, Lisa ; Wagner, Hermann-Josef ; Karbasi, Babak.
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35. Investigation on sector coupling potentials of a 5th generation district heating and cooling network. (2021). Mach, Thomas ; Heimrath, Richard ; Nageler, Peter ; Edtmayer, Hermann ; Hochenauer, Christoph.
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36. Thermohydraulic model of Smart Thermal Grids with bidirectional power flow between prosumers. (2021). Peri, Vedran S ; Licklederer, Thomas ; Hamacher, Thomas ; Kramer, Michael.
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37. Perspectives on fourth and fifth generation district heating. (2021). Ostergaard, Poul Alberg ; Gudmundsson, Oddgeir ; Thorsen, Jan Eric ; Lund, Henrik ; Mathiesen, Brian Vad ; Arabkoohsar, Ahmad ; Nielsen, Tore Bach ; Werner, Sven.
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38. Design optimization of a heating network with multiple heat pumps using mixed integer quadratically constrained programming. (2021). Hering, Dominik ; Muller, Dirk ; Xhonneux, Andre.
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39. Estimation of the utility value of unused heat sources for a CO2 network system in Tokyo. (2021). Amano, Yoshiharu ; Nagano, Takahiro ; Kajita, Jungo ; Yoshida, Akira.
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40. Temperature control of a low-temperature district heating network with Model Predictive Control and Mixed-Integer Quadratically Constrained Programming. (2021). Cansev, Mehmet Ege ; Tamassia, Eugenio ; Hering, Dominik ; Muller, Dirk ; Xhonneux, Andre.
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41. Experimental characterization of a prototype of bidirectional substation for district heating with thermal prosumers. (2021). Pipiciello, Mauro ; Caldera, Matteo ; Ancona, Maria A ; Cozzini, Marco ; Melino, Francesco ; di Pietra, Biagio.
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42. District heating and electricity production based on biogas produced from municipal WWTPs in Turkey: A comprehensive case study. (2021). Abusoglu, Aysegul ; Anvari-Moghaddam, Amjad ; Tozlu, Alperen.
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43. Data informed physical models for district heating grids with distributed heat sources to understand thermal and hydraulic aspects. (2021). Verda, Vittorio ; Tereshchenko, Tymofii ; Borchiellini, Romano ; Nord, Natasa ; Shakerin, Mohammad.
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44. Evaluation of district heating with regard to individual systems – Importance of carbon and cost allocation in cogeneration units. (2021). Pukec, Tomislav ; Dui, Neven ; Doroti, Hrvoje ; Schneider, Daniel Rolph.
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45. Model-based predictive control to minimize primary energy use in a solar district heating system with seasonal thermal energy storage. (2021). Candanedo, Jose A ; Saloux, Etienne.
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46. Temperature control in 5th generation district heating and cooling networks: An MILP-based operation optimization. (2021). Remmen, Peter ; Wirtz, Marco ; Neumaier, Lisa ; Muller, Dirk.
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47. Dynamic Approach to Evaluate the Effect of Reducing District Heating Temperature on Indoor Thermal Comfort. (2020). Pilotelli, Mariagrazia ; Beretta, Gian Paolo ; Piana, Edoardo Alessio ; Grassi, Benedetta.
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48. Double Loop Network for Combined Heating and Cooling in Low Heat Density Areas. (2020). Svendsen, Svend ; Tunzi, Michele ; Ruysschaert, Matthieu ; Smith, Kevin Michael.
    In: Energies.
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49. Impact of wind penetration in electricity markets on optimal power-to-heat capacities in a local district heating system. (2020). Pukec, Tomislav ; Dui, Neven ; Ban, Marko ; Doroti, Hrvoje.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:132:y:2020:i:c:s1364032120303865.

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50. A literature review of energy flexibility in district heating with a survey of the stakeholders’ participation. (2020). Ma, Zheng ; Billanes, Joy Dalmacio ; Jorgensen, Bo Norregaard ; Knotzer, Armin.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:123:y:2020:i:c:s1364032120300460.

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51. Energy performance and economic feasibility of hot spring-based district heating system – A case study. (2020). Kavian, Soheil ; Mosleh, Hassan Jafari ; Hakkaki-Fard, Ali.
    In: Energy.
    RePEc:eee:energy:v:211:y:2020:i:c:s0360544220317370.

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52. A renewable energy scenario for a new low carbon settlement in northern Italy: Biomass district heating coupled with heat pump and solar photovoltaic system. (2020). Aste, Niccolo ; Huerto-Cardenas, Harold Enrique ; Ferla, Giulio ; Leonforte, Fabrizio ; del Pero, Claudio ; Miglioli, Alessandro ; Caputo, Paola.
    In: Energy.
    RePEc:eee:energy:v:206:y:2020:i:c:s0360544220311981.

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53. Developing novel 5th generation district energy networks. (2020). Scott, Jim ; Maidment, Graeme ; Davies, Gareth ; Dunham, Chris ; Marques, Catarina ; Revesz, Akos ; Matabuena, Rodrigo ; Jones, Phil.
    In: Energy.
    RePEc:eee:energy:v:201:y:2020:i:c:s0360544220304965.

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54. The reservoir network: A new network topology for district heating and cooling. (2020). Sommer, Tobias ; Mennel, Stefan ; Wetter, Michael ; Sulzer, Matthias ; Stettler, Christoph ; Sotnikov, Artem.
    In: Energy.
    RePEc:eee:energy:v:199:y:2020:i:c:s0360544220305259.

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55. Economic benefits of fourth generation district heating. (2020). Werner, Sven ; Averfalk, Helge.
    In: Energy.
    RePEc:eee:energy:v:193:y:2020:i:c:s0360544219324223.

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56. Coupling the heating and power sectors: The role of centralised combined heat and power plants and district heat in a European decarbonised power system. (2020). Quoilin, Sylvain ; Pavievi, Matija ; Kavvadias, Konstantinos ; Jimenez-Navarro, Juan-Pablo ; Filippidou, Faidra.
    In: Applied Energy.
    RePEc:eee:appene:v:270:y:2020:i:c:s0306261920306462.

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57. 5th Generation District Heating: A novel design approach based on mathematical optimization. (2020). Remmen, Peter ; Wirtz, Marco ; Kivilip, Lukas ; Muller, Dirk.
    In: Applied Energy.
    RePEc:eee:appene:v:260:y:2020:i:c:s0306261919318458.

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