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3. High-speed multi-stage gas-steam turbine with flow bleeding in a novel thermodynamic cycle for decarbonizing power generation. (2024). Mikielewicz, Dariusz ; Klonowicz, Piotr ; Witanowski, Ukasz ; Zikowski, Pawe.
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4. High temperature heat pumps for industrial heating processes using water as refrigerant. (2024). Wu, DI ; Yan, Hongzhi ; Wang, Ruzhu ; Dong, Yixiu ; Jiang, Jiatong.
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5. Thermal and economic performance assessment of different high temperature heat pump layouts for upgrading district heating to process heating of steam production at 160°C. (2024). Sadeghi, Mohsen ; Petersen, Tage ; Madsen, Kim Stenholdt ; Zhlsdorf, Benjamin ; Yang, Zhenyu.
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6. A mass-coupled hybrid absorption-compression heat pump with output temperature of 200 °C. (2024). Xu, Zhenyuan ; Wang, Ruzhu ; Hu, Bin ; Gao, Jintong ; Feng, Jiayu.
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7. A comprehensive review of heat pump wood drying technologies. (2024). Adegbaye, Patrick ; Pei, Yong ; Seabourne, Tamoy ; Fix, Andrew ; Gao, Lei ; Radermacher, Reinhard ; Yang, Bao ; Hwang, Yunho.
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8. High-temperature heat pumps: Fundamentals, modelling approaches and applications. (2024). Olabi, Valentina ; el Samad, Tala ; Jouhara, Hussam ; Delpech, Bertrand ; Abnieska-Gora, Alina ; Sayma, Abdulnaser.
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9. Thermodynamic analysis of a dual-pressure evaporation high-temperature heat pump with low GWP zeotropic mixtures for steam generation. (2024). Jiang, Yuyan ; Tan, Sicong ; Chen, Junbin ; Guo, Cong ; Feng, Chunyu.
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10. Energy consumption of current and future production of lithium-ion and post lithium-ion battery cells. (2023). Winter, M ; Tubke, J ; Degen, F ; Bendig, D.
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11. Hunting sustainable refrigerants fulfilling technical, environmental, safety and economic requirements. (2023). Vega, L F ; Llovell, F ; Alba, C G ; Alkhatib, I. I. I., .
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12. Hybrid renewable energy utility systems for industrial sites: A review. (2023). Philipp, Matthias ; Taylor, Matthew Thomas ; Picon-Nuez, Martin ; Atkins, Martin John ; Meschede, Henning ; Schlosser, Florian ; Walmsley, Timothy Gordon.
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13. Dual pressure condensation heating high temperature heat pump using eco-friendly working fluid mixtures for industrial heating processes: 4E analysis. (2023). Yao, Xiaole ; Liu, Shengchun ; Zhang, Jianing ; Wang, Dabiao ; Dai, Baomin ; Feng, Yining.
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14. On-site fault experiment and diagnosis research of the carbon dioxide transcritical heat pump system for energy saving. (2023). Li, Yuduo ; Guo, Yabin.
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15. Carbon dioxide and acetone mixtures as refrigerants for industry heat pumps to supply temperature in the range 150–220 oC. (2023). Grimes, R ; Briongos, J V ; Gomez-Hernandez, J ; Santana, D ; Marugan-Cruz, C.
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16. Heat Load Profiles in Industry and the Tertiary Sector: Correlation with Electricity Consumption and Ex Post Modeling. (2022). Jordan, Ulrike ; Jesper, Mateo ; Vajen, Klaus ; Pag, Felix.
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17. Comprehensive selection and assessment methodology of compression heat pump system. (2022). Ge, Tianshu ; Wang, R Z ; Jiang, Jiatong ; Hu, Bin.
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18. 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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19. Sustainable process integration of electrification technologies with industrial energy systems. (2022). Kim, Mi Ae ; Son, Hyunsoo.
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20. Ten megawatt scale vapor compression heat pump for low temperature waste heat recovery: Onsite application research. (2022). Zhang, Zhiping ; Wang, R Z ; Jiang, Jiatong ; Liu, Hua ; Hu, Bin.
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21. The Impact of System Integration on System Costs of a Neighborhood Energy and Water System. (2021). Fens, Theo ; Beernink, Stijn ; Bloemendal, Martin ; van der Hoek, Jan Peter ; van der Roest, Els.
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22. Application of Liquid Hydrogen Carriers in Hydrogen Steelmaking. (2021). Andersson, Joakim.
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23. Towards Sustainable Heat Supply with Decentralized Multi-Energy Systems by Integration of Subsurface Seasonal Heat Storage. (2021). Beernink, Stijn ; Hartog, Niels ; Bloemendal, Martin ; van der Hoek, Jan Peter ; van der Roest, Els.
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24. HVAC Energy Saving Strategies for Public Buildings Based on Heat Pumps and Demand Controlled Ventilation. (2021). Miserocchi, Lorenzo ; Testi, Daniele ; Franco, Alessandro.
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25. Impact of Internal Carbon Prices on the Energy System of an Organisation’s Facilities in Germany, Japan and the United Kingdom Compared to Potential External Carbon Prices. (2021). Gorbach, Oliver Gregor ; Hussein, Noha Saad ; Thomsen, Jessica.
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26. Global-Local Heat Demand Development for the Energy Transition Time Frame Up to 2050. (2021). Oyewo, Solomon ; Khalili, Siavash ; Child, Michael ; Keiner, Dominik ; Bogdanov, Dmitrii ; Breyer, Christian ; Gulagi, Ashish ; Aghahosseini, Arman.
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27. An estimation of the European industrial heat pump market potential. (2021). Spoelstra, S ; Zondag, H A ; Marina, A ; Wemmers, A K.
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28. Vapor compression heat pumps with pure Low-GWP refrigerants. (2021). Wang, R Z ; Wu, DI ; Hu, Bin.
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29. 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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30. Ground source heat pump control methods for solar photovoltaic-assisted domestic hot water heating. (2021). Ruuskanen, Vesa ; Immonen, Paula ; Ahola, Jero ; Knuutinen, Jere ; Book, Herman ; Kosonen, Antti.
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31. Engineering thermodynamics and sustainability. (2021). Zevenhoven, Ron.
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32. Method of linear approximation of COP for heat pumps and chillers based on thermodynamic modelling and off-design operation. (2021). Markussen, Wiebke Brix ; Ommen, Torben ; Krupenski, Igor ; Pieper, Henrik ; Volkova, Anna ; Siirde, Andres.
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33. Performance analysis and multi-objective optimization of the high-temperature cascade heat pump system. (2021). Zhang, Yufeng ; Ma, Xuelian ; Wang, Xiaoyan ; Li, Xiaoqiong ; Yang, Xiaochen ; Sha, LI ; Wu, Zhangxiang.
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34. Increased heat-electricity sector coupling by constraining biomass use?. (2021). Gonzalez, Mario Garzon ; Gea-Bermudez, Juan ; Sneum, Daniel Moller.
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35. Development of low-cost evaluation method for coefficient of performance of heat pump for heating greenhouses. (2020). Kazuya, Sasaki ; Shigeoki, Moritani ; Kenji, Itaka.
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36. Heat Pump Bridge Analysis Using the Modified Energy Transfer Diagram. (2020). Walmsley, Timothy G ; Atkins, Martin J ; Hesselbach, Jens ; Wiebe, Heinrich ; Schlosser, Florian.
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37. A Novel Ground-Source Heat Pump with R744 and R1234ze as Refrigerants. (2020). Bordignon, Sara ; de Carli, Michele ; Carnieletto, Laura ; Emmi, Giuseppe ; Mezzasalma, Giulia ; Poletto, Fabio ; Galgaro, Antonio ; Tarabotti, Andrea ; Bernardi, Adriana.
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38. Rankine Carnot Batteries with the Integration of Thermal Energy Sources: A Review. (2020). Desideri, Umberto ; Ferrari, Lorenzo ; Frate, Guido Francesco.
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39. Evaluation of the Environmental Sustainability of a Stirling Cycle-Based Heat Pump Using LCA. (2020). Khan, Umara ; Tveit, Tor-Martin ; Zevenhoven, Ron.
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40. Automatically Creating HVAC Control Strategies Based on Building Information Modeling (BIM): Heat Provisioning and Distribution. (2020). Hofmann, Rene ; Zucker, Gerhard ; Sporr, Andreas.
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41. Model Predictive Control of Smart Greenhouses as the Path towards Near Zero Energy Consumption. (2020). Sacile, Roberto ; Zero, Enrico ; Bersani, Chiara ; Ouammi, Ahmed.
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42. Renewable Energy Integration for Steam Supply of Industrial Processes—A Food Processing Case Study. (2020). Hechelmann, Ron-Hendrik ; Stark, Matthias ; Sponer, Jan ; Seevers, Jan-Peter ; Otte, Alexander.
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43. Techno-economic potential of waste heat recovery from German energy-intensive industry with Organic Rankine Cycle technology. (2020). Pili, R ; Spliethoff, H ; Martinez, Garcia L ; Wieland, C.
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44. Large-scale heat pumps: Applications, performance, economic feasibility and industrial integration. (2020). Walmsley, T G ; Jesper, M ; Vogelsang, J ; Hesselbach, J ; Schlosser, F ; Arpagaus, C.
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45. A review of the emission reduction potential of fuel switch towards biomass and electricity in European basic materials industry until 2030. (2020). Eichhammer, W ; Fleiter, T ; Rehfeldt, M ; Worrell, E.
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    RePEc:eee:rensus:v:120:y:2020:i:c:s1364032119308779.

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46. The performance comparison of high temperature heat pump among R718 and other refrigerants. (2020). Wang, R Z ; Fan, Haibin ; Wu, DI ; Hu, Bin.
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    RePEc:eee:renene:v:154:y:2020:i:c:p:715-722.

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47. A trans-critical carbon dioxide energy storage system with heat pump to recover stored heat of compression. (2020). Hao, Yinping ; He, Qing ; Du, Dongmei.
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    RePEc:eee:renene:v:152:y:2020:i:c:p:1099-1108.

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48. Experimental validation of an advanced heat pump system with high-efficiency centrifugal compressor. (2020). Zhang, Zhiping ; Wang, R Z ; Liu, Hua ; Hu, Bin ; Zhao, Baiyang.
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    RePEc:eee:energy:v:213:y:2020:i:c:s0360544220320752.

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49. Solar for industrial process heat: A review of technologies, analysis approaches, and potential applications in the United States. (2020). Akar, Sertac ; Margolis, Robert ; Kurup, Parthiv ; Masanet, Eric ; McMillan, Colin A ; Schoeneberger, Carrie A.
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50. Experimental investigation on the performance of a very high temperature heat pump with water refrigerant. (2020). Wang, R Z ; Jiang, Jiatong ; Wu, DI ; Hu, Bin.
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    RePEc:eee:energy:v:190:y:2020:i:c:s036054421932122x.

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51. 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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52. Experimental and economic analysis with a novel ejector-based detection system for thermodynamic measurement of compressors. (2020). Wang, Xiaoyan ; Li, Xiaoqiong ; Yu, Xiaohui ; Yao, Sheng ; Deng, NA ; Fang, Lei ; Jin, Zhendong ; Zhang, Yufeng.
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    RePEc:eee:appene:v:261:y:2020:i:c:s0306261919320823.

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53. Pumped thermal energy storage (PTES) as smart sector-coupling technology for heat and electricity. (2019). Steinmann, Wolf-Dieter ; Johnson, Maike ; Jockenhofer, Henning ; Bauer, Dan.
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54. Thermodynamic assessment of a condenser outlet split ejector-based high temperature heat pump cycle using various low GWP refrigerants. (2019). Bai, Tao ; Yu, Jianlin ; Yan, Gang.
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    RePEc:eee:energy:v:179:y:2019:i:c:p:850-862.

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55. The development of a hydrocarbon high temperature heat pump for waste heat recovery. (2019). Eikevik, T M ; Neks, P ; Bamigbetan, O ; Bantle, M ; Schlemminger, C.
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56. Modeling and simulation on a water vapor high temperature heat pump system. (2019). Wang, R Z ; Yan, Hongzhi ; Wu, DI ; Hu, Bin.
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    RePEc:eee:energy:v:168:y:2019:i:c:p:1063-1072.

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57. Experimental exergy and energy analysis of a novel high-temperature heat pump with scroll compressor for waste heat recovery. (2019). Amat-Albuixech, Marta ; Navarro-Esbri, Joaquin ; Moles, Francisco ; Mateu-Royo, Carlos ; Mota-Babiloni, Adrian.
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58. A comparative assessment of electrification strategies for industrial sites: Case of milk powder production. (2019). Nguyen, Tuong-Van ; Buhler, Fabian ; Elmegaard, Brian ; Zuhlsdorf, Benjamin.
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59. Experimental investigation of modern ORC working fluids R1224yd(Z) and R1233zd(E) as replacements for R245fa. (2019). Eyerer, Sebastian ; Kaindl, Johannes ; Spliethoff, Hartmut ; Dawo, Fabian ; Wieland, Christoph.
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60. Thermodynamic and economic analysis of the integration of high-temperature heat pumps in trigeneration systems. (2019). Urbanucci, Luca ; Bruno, Joan Carles ; Testi, Daniele.
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61. Performance analysis of a modified subcritical zeotropic mixture recuperative high-temperature heat pump. (2019). Qin, Xiaoyu ; Gong, Maoqiong ; Guo, Hao.
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    RePEc:eee:appene:v:237:y:2019:i:c:p:338-352.

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62. Optimal contracts of energy mix in a retail market under asymmetric information. (2018). Chen, Yue ; Wei, Wei ; Mei, Shengwei ; Shafie-Khah, Miadreza ; Liu, Feng.
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63. 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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    RePEc:eee:energy:v:165:y:2018:i:pb:p:1248-1258.

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64. Design of centrifugal compressors for heat pump systems. (2018). Haglind, Fredrik ; Elmegaard, Brian ; Zuhlsdorf, Benjamin ; Meroni, Andrea.
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    RePEc:eee:appene:v:232:y:2018:i:c:p:139-156.

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