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2. The Influence of the Cu-Al 2 O 3 Ratio of the Receiving Tube in a 50 MW Hybrid Solar Plant. (2025). Bentez-Olivares, Guillermo ; Valencia-Lpez, Jos Javier ; Lugo-Leyte, Ral ; Torres-Aldaco, Alejandro ; Romero-Vzquez, Luis Alberto ; Lugo-Mndez, Helen D.
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3. Toward sustainable development: Unfolding the nexus among exports, foreign direct investment, capital formation, natural resource rent, unemployment, and low-carbon transition in Morocco. (2025). Ikram, Muhammad ; Nahdi, Rabie.
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4. 3D-printed swirler for enhanced heat transfer in evacuated tube solar collectors. (2025). Crema, L ; Fronza, N ; Bolognese, M ; Prattico, L ; Vaccari, A ; Bartali, R.
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5. Doubling the thermo-osmotic energy conversion efficiency through the reduction of heat and mass transfer resistance. (2025). Zhang, Yifan ; Li, JI ; Tan, Yubo ; Liu, Zhichun.
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6. Evaluating low-temperature heat sources for large-scale heat pump integration: A method using open-source data and indicators. (2025). Nkongdem, Bertrand ; Fuchs, Nicolas ; Yanez, Guillermo ; Thomsen, Jessica.
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7. Energy geo-structures: A review of their integration with other sources and its limitations. (2024). Suarez, Cristina ; Quiroga, Sonia ; Alvi, Maria Romana ; Aresti, Lazaros ; Cecinato, Francesco ; Halaj, Elzbieta ; Li, Zili ; Fan, Tao ; Tang, Anh Minh ; Poulsen, Soren Erbs ; Valancius, Rokas ; Christodoulides, Paul ; Okhay, Olena.
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8. Spatial analysis of renewable and excess heat potentials for climate-neutral district heating in Europe. (2024). Braungardt, Sibylle ; Manz, Pia ; Fallahnejad, Mostafa ; Kranzl, Lukas ; Billerbeck, Anna ; Kok, Ali ; Eichhammer, Wolfgang ; Fleiter, Tobias.
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9. Revolutionizing heat distribution: A method for harnessing industrial waste heat with supra-regional district heating networks. (2024). Kienberger, Thomas ; Wallner, Stefan ; Steinegger, Josef ; Hammer, Andreas.
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10. Using Industrial Waste Heat in District Heating: Insights on Effective Project Initiation and Business Models. (2023). Moser, Simon ; Jauschnik, Gabriela.
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11. Valorisation of Waste Heat in Existing and Future District Heating Systems. (2023). Lepiksaar, Kertu ; Pakere, Ieva ; Blumberga, Dagnija ; Volkova, Anna ; Zirne, Agate.
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12. Novel solar-driven low temperature district heating and cooling system based on distributed half-effect absorption heat pumps with lithium bromide. (2023). Zhao, Xiaoqing ; Sun, Fangtian.
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13. Optimal decarbonization strategies for existing districts considering energy systems and retrofits. (2023). Petkov, Ivalin ; Mavromatidis, Georgios ; Knoeri, Christof ; Lerbinger, Alicia.
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14. Condenser cooling technologies for concentrating solar power plants: a review. (2022). Aseri, Tarun Kumar ; Kandpal, Tara C ; Sharma, Chandan.
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15. A novel decision-making tool for performance evaluation of vegetable oils used as heat transfer fluids in concentrated solar power plants. (2022). Bhowmik, Sumit ; Maity, Saikat Ranjan ; Zindani, Divya.
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16. Life Cycle Assessment of Hydrogen Transportation Pathways via Pipelines and Truck Trailers: Implications as a Low Carbon Fuel. (2022). Tayarani, Hanif ; Ramji, Aditya.
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17. Performance Analysis of the 50 MW Concentrating Solar Power Plant under Various Operation Conditions. (2022). Shuai, Yong ; Ganbold, Enkhjin ; Shagdar, Enkhbayar ; Han, Dongmei ; Sereeter, Batmunkh ; Lougou, Bachirou Guene ; Mustafa, Azeem.
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18. A Critical Review on Decarbonizing Heating in China: Pathway Exploration for Technology with Multi-Sector Applications. (2022). Hou, Xiaoyang ; Zhong, Shuai ; Zhao, Jianan.
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19. Laser Profilometry on Micro-PTC. (2022). Sansoni, Paola ; de Lucia, Maurizio ; Marotta, Gianluca ; Francini, Franco ; Jafrancesco, David ; Fontani, Daniela.
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20. Geothermal energy at different depths for district heating and cooling of existing and future building stock. (2022). Romanov, D ; Leiss, B.
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21. Integration of flexibility potentials of district heating systems into electricity markets: A review. (2022). Jensen, Peter Gjol ; Larsen, Kim Guldstrand ; Hasrat, Imran Riaz ; Golmohamadi, Hessam.
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22. Different ways to improve parabolic trough solar collectors’ performance over the last four decades and their applications: A comprehensive review. (2022). Ajbar, Wassila ; Hernandez, J A ; Parrales, A ; Huicochea, A.
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23. Promoting efficient district heating in Estonia. (2022). Umbleja, Siim ; Latov, Eduard ; Volkova, Anna.
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24. Optimization of layout and diameter for distributed solar heating network with multi-source and multi-sink. (2022). Chen, Yaowen ; Liu, Yanfeng ; Tang, Huanlong ; Wang, Dengjia ; Song, Cong.
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25. Risk assessment of industrial excess heat collaborations – Empirical data from new and ongoing installations. (2022). Klugman, Sofia ; Fransson, Nathalie ; Lygnerud, Kristina ; Nilsson, Johanna.
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26. An analytical framework for assessing the integration of the waste heat into a district heating system: Case of the city of Riga. (2022). Ziemele, Jelena ; Dace, Elina.
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27. Cost and environmental benefits of coal-concentrated solar power (CSP) hybridization in India. (2022). Majumdar, Rudrodip ; Srikanth, R ; Kamath, Harsh G ; Krishnan, A V.
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28. 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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29. Development of deterministic-stochastic model to integrate variable renewable energy-driven electricity and large-scale utility networks: Towards decarbonization petrochemical industry. (2022). Heo, Sungku ; Hwangbo, Soonho ; Yoo, Changkyoo.
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30. Harvesting low-grade heat by coupling regenerative shape-memory actuator and piezoelectric generator. (2022). Wang, Yao ; Qian, Suxin ; Yao, Sijia ; Yuan, Lifen.
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31. Smart Asset Management for District Heating Systems in the Baltic Sea Region. (2021). Lukoeviius, Valdas ; Rybarczyk, Piotr ; Sobczak, Joanna ; Grzegorska, Anna ; Rogala, Andrzej.
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32. Modeling and Hourly Time-Scale Characterization of the Main Energy Parameters of Parabolic-Trough Solar Thermal Power Plants Using a Simplified Quasi-Dynamic Model. (2021). Escobar, Rodrigo ; Perez-Garcia, Manuel ; Valenzuela, Loreto ; Romero, Jose Alfonso ; Arias, Ignacio ; Zarza, Eduardo.
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33. Chronological development of innovations in reflector systems of parabolic trough solar collector (PTC) - A review. (2021). Dalvi, Vishwanath H ; Deshmukh, Suresh P ; Panse, Sudhir V ; Bhalekar, Snehal S ; Gharat, Punit V ; Joshi, Jyeshtharaj B.
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34. District heating atlas - Analysis of the German district heating sector. (2021). Persson, Urban ; Holler, Stefan ; Pelda, Johannes.
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35. Implementing prosumers into heating networks. (2021). Bertsch, Valentin ; Reiners, Tobias ; Gross, Michel ; Altieri, Lisa ; Wagner, Hermann-Josef ; Karbasi, Babak.
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36. Strategies for a transition towards a solar district heating grid with integrated seasonal geothermal energy storage. (2021). Formhals, Julian ; Sass, Ingo ; Hemmatabady, Hoofar ; Feike, Frederik ; Welsch, Bastian.
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37. A thermoacoustic combined cooling, heating, and power (CCHP) system for waste heat and LNG cold energy recovery. (2021). Hochgreb, Simone ; Xu, Jingyuan ; Luo, Ercang.
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38. Development of a novel cogeneration system by combing organic rankine cycle and heat pump cycle for waste heat recovery. (2021). Gao, Naiping ; Liu, Liuchen ; Wu, Jinlu ; Cui, Guomin ; Zhong, Fen.
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39. Option to survive or surrender: carbon asset management and optimization in thermal power enterprises from China. (2021). Xie, Zhuyun ; Zhen, Zaili ; Liu, Yue ; Tian, Lixin ; Sun, Huaping.
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40. Performance Assessment of a Hybrid System with Hydrogen Storage and Fuel Cell for Cogeneration in Buildings. (2020). Boulmrharj, Sofia ; Ouladsine, Radouane ; Siniti, Mostapha ; Khaidar, Mohammed ; Bakhouya, Mohamed ; Zine-Dine, Khalid.
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41. Tri-objective optimization of a hybrid solar-assisted power-refrigeration system working with supercritical carbon dioxide. (2020). Khanmohammadi, Shoaib ; Kizilkan, Onder ; Ahmed, Faraedoon Waly.
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42. Performance analysis of an improved 30 MW parabolic trough solar thermal power plant. (2020). Yanping, Zhang ; Cheng, Zhang ; Yuanjing, Wang ; Xiaohong, Huang.
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