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   RePEc:eee:energy:v:277:y:2023:i:c:s0360544223010885.

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2. Integration of biocoal in distributed energy systems: A potential case study in the Spanish coal-mining regions. (2023). Garcia, R ; Paredes, J P.
   In: Energy.
   RePEc:eee:energy:v:263:y:2023:i:pc:s0360544222027190.

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3. Optimal Planning of Future District Heating Systems—A Review. (2022). Jiang, Mengting ; Rindt, Camilo.
   In: Energies.
   RePEc:gam:jeners:v:15:y:2022:i:19:p:7160-:d:928582.

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4. Many-Objective Hybrid Optimization Method for Impeller Profile Design of Low Specific Speed Centrifugal Pump in District Energy Systems. (2021). Tong, Zheming ; Xin, Jiage ; Ling, Chengzhen.
   In: Sustainability.
   RePEc:gam:jsusta:v:13:y:2021:i:19:p:10537-:d:641161.

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1. 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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2. Impact of heat price regulation on the optimal district heating production mix and its policy implications. (2022). Kim, Sang-Kee ; Oh, Saesin.
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   RePEc:eee:energy:v:239:y:2022:i:pd:s0360544221025536.

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3. Day-ahead stochastic scheduling of integrated electricity and heat system considering reserve provision by large-scale heat pumps. (2022). Guan, Qinyue ; Zhang, Menglin ; Wen, Jinyu ; Tan, Jin ; Fang, Fang ; Zhou, BO ; Lin, Zhongwei ; Wu, Qiuwei.
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   RePEc:eee:appene:v:307:y:2022:i:c:s0306261921014197.

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4. 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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5. Potential Diffusion of Renewables-Based DH Assessment through Clustering and Mapping: A Case Study in Milano. (2021). Persson, Urban ; Macchi, Samuel ; Motta, Mario ; Spirito, Giulia ; Fattori, Fabrizio ; Denarie, Alice.
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6. 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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7. Enabling Technologies for Sector Coupling: A Review on the Role of Heat Pumps and Thermal Energy Storage. (2021). Palomba, Valeria ; Rehman, Omais Abdur ; Cabeza, Luisa F ; Frazzica, Andrea.
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8. Selection of Heat Pump Capacity Used at Thermal Power Plants under Electricity Market Operating Conditions. (2021). Sergeev, Vitaly ; Skulkin, Sergey ; Treshcheva, Milana ; Anikina, Irina.
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9. Flexibility from Combined Heat and Power: A Techno-Economic Study for Fully Renewable Åland Islands. (2021). Thomasson, Tomi ; Tahtinen, Matti ; Kiviranta, Kirsikka ; Tapani, Antton.
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10. Thermo-economic comparison of heat–power decoupling technologies for combined heat and power plants when participating in a power-balancing service in an energy hub. (2021). Wang, YU ; Liu, Ming ; Yan, Junjie ; Ma, Guofeng.
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11. Large-scale heat pumps: Uptake and performance modelling of market-available devices. (2021). Walmsley, Timothy Gordon ; Jesper, Mateo ; Vajen, Klaus ; Schlosser, Florian ; Pag, Felix ; Schmitt, Bastian.
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12. Business models combining heat pumps and district heating in buildings generate cost and emission savings. (2021). Johansson, Linnea ; Lygnerud, Kristina ; Ottosson, Jonas ; Kensby, Johan .
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13. Heat pumps in Sweden – A historical review. (2021). Johansson, Petter.
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14. Low-cost renewable electricity as the key driver of the global energy transition towards sustainability. (2021). Traber, Thure ; Farfan, Javier ; Bogdanov, Dmitrii ; Breyer, Christian ; Caldera, Upeksha ; Oyewo, Ayobami Solomon ; Gulagi, Ashish ; Khalili, Siavash ; Aghahosseini, Arman ; Child, Michael ; Ram, Manish ; Fasihi, Mahdi ; de Souza, Larissa ; Sadovskaia, Kristina.
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15. Impact of Compressor Drive System Efficiency on Air Source Heat Pump Performance for Heating Hot Water. (2020). Szreder, Mariusz ; Miara, Marek.
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16. Low Temperature District Heating: An Expert Opinion Survey. (2020). Pellegrini, Marco ; Pelliconi, Edoardo ; Saccani, And Cesare ; Guzzini, Alessandro.
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17. Towards Optimal Sustainable Energy Systems in Nordic Municipalities. (2020). Fischer, Robert ; Elfgren, Erik ; Toffolo, Andrea.
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18. New Low-Temperature Central Heating System Integrated with Industrial Exhausted Heat Using Distributed Electric Compression Heat Pumps for Higher Energy Efficiency. (2020). Xie, Yonghua ; Svendsen, Svend ; Fu, Lin ; Sun, Fangtian.
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19. 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.
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20. Heat demand mapping and district heating assessment in data-pour areas. (2020). Pukec, T ; Novosel, T ; Dui, N ; Domac, J.
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21. 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.
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22. Economic benefits of fourth generation district heating. (2020). Werner, Sven ; Averfalk, Helge.
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23. Support schemes adapting district energy combined heat and power for the role as a flexibility provider in renewable energy systems. (2020). Ostergaard, Poul Alberg ; Andersen, Anders N.
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    RePEc:eee:energy:v:192:y:2020:i:c:s0360544219323345.

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24. Techno-economic study of full-open absorption heat pump applied to flue gas total heat recovery. (2020). Yuan, Weixing ; Zhang, Shigang ; Wei, Maolin ; Fu, Lin ; Guo, Dongcai ; Yang, BO.
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25. Optimizing control of two-stage ammonia heat pump for fast regulation of power uptake. (2020). Meesenburg, Wiebke ; Markussen, Wiebke Brix ; Ommen, Torben ; Elmegaard, Brian.
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26. Numerical analysis of working fluids for large scale centrifugal compressor driven cascade heat pumps upgrading waste heat. (2020). Turunen-Saaresti, Teemu ; Honkatukia, Juha ; Tiainen, Jonna ; Uusitalo, Antti ; Jaatinen-Varri, Ahti.
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27. Public Private Partnerships, a Value for Money Solution for Clean Coal District Heating Operations. (2019). Chen, Xiaoyan ; Wang, Nannan ; Wu, Guobin.
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    RePEc:gam:jsusta:v:11:y:2019:i:8:p:2386-:d:224960.

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28. Autonomous Controller for Flexible Operation of Heat Pumps in Low-Voltage Distribution Network. (2019). Sinha, Rakesh ; Pillai, Jayakrishnan Radhakrishna ; Bak-Jensen, Birgitte.
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29. Renewable Energy Generation Scenarios Using 3D Urban Modeling Tools—Methodology for Heat Pump and Co-Generation Systems with Case Study Application †. (2019). Weiler, Verena ; Eicker, Ursula ; Stave, Jonas.
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30. District Power-To-Heat/Cool Complemented by Sewage Heat Recovery. (2019). Scoccia, Rossano ; Schuetz, Philipp ; Elguezabal, Peru ; Kiss, Pal ; Aprile, Marcello ; Dombrovszky, Marcell ; Gwerder, Damian ; Arregi, Beat ; Denarie, Alice.
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31. A Deep Peak Regulation Auxiliary Service Bidding Strategy for CHP Units Based on a Risk-Averse Model and District Heating Network Energy Storage. (2019). Xie, Yunlei ; Liu, Xinping ; Deng, Tuoyu ; Tian, Liang ; Luo, Huanhuan ; Hu, BO.
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32. 5th generation district heating and cooling systems: A review of existing cases in Europe. (2019). Buffa, Simone ; Fedrizzi, Roberto ; Dantoni, Matteo ; Cozzini, Marco ; Baratieri, Marco.
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33. Using lakes and rivers for extraction and disposal of heat: Estimate of regional potentials. (2019). Schmid, Martin ; Wuest, Alfred ; Gaudard, Adrien.
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34. Solar power in district heating. P2H flexibility concept. (2019). Pakere, Ieva ; Blumberga, Dagnija ; Gravelsins, Armands ; Tukulis, Anrijs.
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35. The role and costs of large-scale heat pumps in decarbonising existing district heating networks – A case study for the city of Herten in Germany. (2019). Fleiter, Tobias ; Buchele, Richard ; Steinbach, Jan ; Popovski, Eftim ; Bellstadt, Daniel ; Aydemir, Ali.
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36. Can electricity market prices control power-to-heat production for peak shaving of renewable power generation? The case of Sweden. (2019). Berg, Magnus ; Olauson, Jon ; Widen, Joakim ; Lingfors, David.
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37. Strategies for decarbonising the Swiss heating system. (2019). Patel, Martin K ; Narula, Kapil ; Streicher, Kai N ; Chambers, Jonathan.
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38. Introducing modern heat pumps to existing district heating systems – Global lessons from viable decarbonizing of district heating in Finland. (2019). Rinne, S ; Junnila, S ; Kontu, K.
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39. Cost sensitivity of optimal sector-coupled district heating production systems. (2019). Dahl, Magnus ; Andresen, Gorm B ; Brun, Adam.
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40. An area-based modelling approach for planning heating electrification. (2019). Yi, Jialiang ; Underwood, Chris ; Calderon, Carlos ; Williams, Brian ; McLoughlin, Adrian.
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41. Modular participatory backcasting: A unifying framework for strategic planning in the heating sector. (2019). Kordas, Olga ; Pasichnyi, Oleksii ; Pereverza, Kateryna.
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42. Combined heating and cooling networks with waste heat recovery based on energy hub concept. (2019). Gosselin, Louis ; Ahmadisedigh, Hossein.
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43. Applications of eco-friendly refrigerants and nanorefrigerants: A review. (2018). Yan, Wei-Mon ; Wongwises, Somchai ; Hosseini, Seyedmohsen ; Mahian, Omid ; Sheikhpour, Mojgan ; Kasaeian, Alibakhsh.
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44. Natural and synthetic refrigerants, global warming: A review. (2018). Saleem, Zahid ; Khan, Nasr Ullah ; Abas, Naeem ; Haider, Aun ; Kalair, Ali Raza.
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45. Optimisation of high-temperature heat pump cascades with internal heat exchangers using refrigerants with low global warming potential. (2018). Amat-Albuixech, Marta ; Navarro-Esbri, Joaquin ; Moles, Francisco ; Mateu-Royo, Carlos ; Barragan-Cervera, Angel ; Mota-Babiloni, Adrian.
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46. Socioeconomic cost-benefit-analysis of seasonal heat storages in district heating systems with industrial waste heat integration. (2018). Moser, Simon ; Tichler, Robert ; Schmidt, Ralf-Roman ; Mayrhofer, Julia.
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47. Ultra-low temperature district heating system with central heat pump and local boosters for low-heat-density area: Analyses on a real case in Denmark. (2018). Yang, Xiaochen ; Svendsen, Svend.
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48. Modular simulation of cogeneration system based on absorption heat exchange (Co-ah). (2018). Jiang, YI ; Zhang, Shigang ; Fu, Lin ; Yang, BO.
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49. Synthesis of recent Swedish district heating research. (2018). Werner, Sven ; Lygnerud, Kristina ; Sernhed, Kerstin.
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50. A method for assessing support schemes promoting flexibility at district energy plants. (2018). Ostergaard, Poul Alberg ; Andersen, Anders N.
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