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3. Decarbonization of existing heating networks through optimal producer retrofit and low-temperature operation. (2025). Blommaert, Maarten ; Salenbien, Robbe ; Wack, Yannick ; Sollich, Martin.
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5. Comparative Thermal Performance Analysis of Coaxial Versus Conventional Pipes in District Heating Distribution Systems. (2024). Gonzlez-Gonzlez, Enrique ; Blzquez, Cristina Sez ; Nieto, Ignacio Martn ; Nuo-Villanueva, Natalia ; Mat-Gonzlez, Miguel Ngel ; Fernndez, Vctor Prez ; Gonzlez-Aguilera, Diego ; Martn, Arturo Farfn.
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1. Modelling and Transient Simulation of District Heating Networks Based on a Control Theory Approach. (2025). Hoster, Harry ; Roes, Jrgen ; Scheipers, Jan ; Schojda, Dominik.
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   RePEc:gam:jeners:v:18:y:2025:i:3:p:658-:d:1580861.

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2. Unlocking temperature reduction of cogeneration district heating networks through automated substation retrofit. (2025). van Belle, Vincent ; Sollich, Martin ; Wack, Yannick ; Salenbien, Robbe ; Baelmans, Martine ; Blommaert, Maarten.
   In: Energy.
   RePEc:eee:energy:v:322:y:2025:i:c:s036054422501148x.

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3. Enabling the dynamic simulation of an unaggregated, meshed district heating network with several thousand substations. (2025). Speerforck, Arne ; Brunnemann, Johannes ; Westphal, Jan.
   In: Energy.
   RePEc:eee:energy:v:322:y:2025:i:c:s036054422501076x.

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4. Decarbonization of existing heating networks through optimal producer retrofit and low-temperature operation. (2025). Blommaert, Maarten ; Salenbien, Robbe ; Wack, Yannick ; Sollich, Martin.
   In: Applied Energy.
   RePEc:eee:appene:v:378:y:2025:i:pa:s0306261924021792.

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5. Benchmark of mixed-integer linear programming formulations for district heating network design. (2024). Spliethoff, Hartmut ; Ceruti, Amedeo ; Lambert, Jerry.
   In: Energy.
   RePEc:eee:energy:v:308:y:2024:i:c:s0360544224026598.

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6. Improved genetic algorithm for pipe diameter optimization of an existing large-scale district heating network. (2024). Luo, Zhengyuan ; Wang, Xuanbo ; Zhang, LU ; Xu, Han ; Bai, Bofeng.
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7. A two-phase nonlinear optimization method for routing and sizing district heating systems. (2024). Lambert, Jerry ; Spliethoff, Hartmut.
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   RePEc:eee:energy:v:302:y:2024:i:c:s0360544224016165.

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8. Verification of an open-source Python library for the simulation of district heating networks with complex topologies. (2024). Boghetti, Roberto ; Kampf, Jerome H.
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   RePEc:eee:energy:v:290:y:2024:i:c:s0360544223035636.

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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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   RePEc:eee:appene:v:372:y:2024:i:c:s0306261924011528.

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10. A multi-period topology and design optimization approach for district heating networks. (2024). Wack, Yannick ; Salenbien, Robbe ; Sollich, Martin ; Baelmans, Martine ; Blommaert, Maarten ; Diriken, Jan.
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11. District Heating System Optimisation: A Three-Phase Thermo-Hydraulic Linear Model. (2023). Kaszyski, Przemysaw ; Sauga, Piotr ; Paka, Piotr ; Malec, Marcin ; Kamiski, Jacek.
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12. Geographically informed automated non-linear topology optimization of district heating networks. (2023). Wack, Y ; Salenbien, R ; Blommaert, M ; Baelmans, M.
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    RePEc:eee:energy:v:283:y:2023:i:c:s0360544223022922.

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13. Optimal retrofit of district heating network to lower temperature levels. (2023). Merlet, Yannis ; Baviere, Roland ; Vasset, Nicolas.
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    RePEc:eee:energy:v:282:y:2023:i:c:s0360544223017802.

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14. Nonlinear topology optimization of District Heating Networks: A benchmark of a mixed-integer and a density-based approach. (2023). Wack, Yannick ; Serra, Sylvain ; Baelmans, Martine ; Blommaert, Maarten ; Reneaume, Jean-Michel.
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15. Economic topology optimization of District Heating Networks using a pipe penalization approach. (2023). Wack, Yannick ; Salenbien, Robbe ; Baelmans, Martine ; Blommaert, Maarten.
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16. Optimal Planning of Future District Heating Systems—A Review. (2022). Jiang, Mengting ; Rindt, Camilo.
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17. Heating and cooling networks: A comprehensive review of modelling approaches to map future directions. (2022). McLoone, Sean ; Keatley, Patrick ; Laverty, David ; Foley, Aoife ; Brown, Alastair.
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18. Formulation and assessment of multi-objective optimal sizing of district heating network. (2022). Merlet, Yannis ; Baviere, Roland ; Vasset, Nicolas.
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19. Planning of the Multi-Energy Circular System Coupled with Waste Processing Base: A Case from China. (2019). Wang, Xitian ; Zhang, Luqing ; Gu, Han ; Xie, DA ; Chen, Aikang.
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20. Search for K-best solutions in optimal design of energy supply systems by an extended MILP hierarchical branch and bound method. (2019). Shinano, Yuji ; Wakui, Tetsuya ; Taniguchi, Syusuke ; Yokoyama, Ryohei.
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21. Distributed energy resource and network expansion planning of a CCHP based active microgrid considering demand response programs. (2019). Shafie-Khah, Miadreza ; Nazar, Mehrdad Setayesh ; Varasteh, Farid ; Heidari, Alireza.
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22. Two-stage design optimization based on artificial immune system and mixed-integer linear programming for energy supply networks. (2019). Wakui, Tetsuya ; Yokoyama, Ryohei ; Hashiguchi, Moe ; Sawada, Kento.
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23. Multi-objective optimization of district heating and cooling systems for a one-year time horizon. (2019). Pukec, Tomislav ; Dui, Neven ; Doroti, Hrvoje.
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24. Economical, environmental and exergetic multi-objective optimization of district heating systems on hourly level for a whole year. (2019). Pukec, Tomislav ; Dui, Neven ; Doroti, Hrvoje.
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25. Scenario-based investment planning of isolated multi-energy microgrids considering electricity, heating and cooling demand. (2019). Yang, Qiang ; Ehsan, Ali.
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26. Technical and economic assessment of food waste valorization through a biorefinery chain. (2018). Fiore, Silvia ; Venus, Joachim ; Demichelis, Francesca ; Pleissner, Daniel.
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27. A review of uncertainty characterisation approaches for the optimal design of distributed energy systems. (2018). Orehounig, Kristina ; Carmeliet, Jan ; Mavromatidis, Georgios.
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28. The optimal structure planning and energy management strategies of smart multi energy systems. (2018). Lee, Wei-Jen ; Ma, Tengfei ; Hao, Liangliang ; Wu, Junyong ; Yan, Huaguang ; Li, Dezhi.
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29. Electrochemical conversion technologies for optimal design of decentralized multi-energy systems: Modeling framework and technology assessment. (2018). Gabrielli, Paolo ; Gazzani, Matteo ; Mazzotti, Marco.
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30. Optimal design of multi-energy systems with seasonal storage. (2018). Gabrielli, Paolo ; Gazzani, Matteo ; Mazzotti, Marco ; Martelli, Emanuele.
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31. Optimal Expansion Co-Planning of Reconfigurable Electricity and Natural Gas Distribution Systems Incorporating Energy Hubs. (2017). Wang, Yifei ; Zhou, Xianzheng ; Li, Wanqi ; Guo, Chuangxin.
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32. Review of district heating and cooling systems for a sustainable future. (2017). Beyerlein, Steven ; Rezaie, Behanz ; Lake, Andrew.
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33. Bi-level multi-objective fuzzy design optimization of energy supply systems aided by problem-specific heuristics. (2017). Stojiljkovi, Mirko M.
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34. Defining priorities in the design of power and water distribution networks. (2017). Gonzalez-Bravo, Ramon ; Fuentes-Cortes, Luis Fabian ; Ponce-Ortega, Jose Maria.
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35. Optimum sizing and operational strategy of CHP plant for district heating based on the use of composite indicators. (2017). Versace, Michele ; Franco, Alessandro.
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36. Two-stage MINLP algorithm for the optimal synthesis and design of networks of CHP units. (2017). Silva, Paolo ; Martelli, Emanuele ; Elsido, Cristina ; Bischi, Aldo.
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37. Benefit allocation for distributed energy network participants applying game theory based solutions. (2017). Gao, Weijun ; Wu, Qiong ; Ren, Jianxing.
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38. Profit allocation analysis among the distributed energy network participants based on Game-theory. (2017). Gao, Weijun ; Wu, Qiong ; Ren, Jianxing ; Lao, Changshi .
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39. Multi-objective design optimization of distributed energy systems through cost and exergy assessments. (2017). Luh, P B ; Bianco, N ; di Somma, M ; Mongibello, L ; Graditi, G ; Yan, B ; Naso, V.
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40. Review and prospect of integrated demand response in the multi-energy system. (2017). Ma, Ziming ; Xia, Qing ; Wang, Jianxiao ; Zhong, Haiwang ; Kang, Chongqing.
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41. Designing the scale of a woody biomass CHP considering local forestry reformation: A case study of Tanegashima, Japan. (2017). Kanematsu, Yuichiro ; Kikuchi, Yasunori ; Okubo, Tatsuya ; Oosawa, Kazutake .
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42. A mixed integer linear programming approach for optimal DER portfolio, sizing, and placement in multi-energy microgrids. (2017). Mashayekh, Salman ; Heleno, Miguel ; Stadler, Michael ; Cardoso, Gonalo.
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43. Definition and Experimental Validation of a Simplified Model for a Microgrid Thermal Network and its Integration into Energy Management Systems. (2016). Procopio, Renato ; Brignone, Massimo ; Delfino, Federico ; Bonfiglio, Andrea ; Nilberto, Alessandro.
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44. A compendium of optimization objectives, constraints, tools and algorithms for energy management in microgrids. (2016). Qaisar, Saad ; Naeem, Muhammad ; Iqbal, Muhammad ; Anpalagan, Alagan ; Khan, Aftab Ahmad.
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46. Decision support for grid-connected renewable energy generators planning. (2016). Torrent-Fontbona, F ; Lopez, B.
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47. Economic and environmental optimization for distributed energy resource systems coupled with district energy networks. (2016). Li, Nan ; Mu, Hailin.
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48. Multi-objective optimization of a distributed energy network integrated with heating interchange. (2016). Gao, Weijun ; Wu, Qiong ; Ren, Jianxing.
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49. DESOD: a mathematical programming tool to optimally design a distributed energy system. (2016). Bracco, Stefano ; Siri, Silvia ; Dentici, Gabriele .
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50. Multi-objective optimization and simulation model for the design of distributed energy systems. (2016). Falke, Tobias ; Krengel, Stefan ; Schnettler, Armin ; Meinerzhagen, Ann-Kathrin .
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51. The improvement of a simulation model for a distributed CCHP system and its influence on optimal operation cost and strategy. (2016). Tian, Zhe ; Lu, Yakai ; He, Shunming ; Niu, Jide.
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52. Modeling and optimization of a network of energy hubs to improve economic and emission considerations. (2015). Roshandel, Ramin ; Fowler, Michael ; Entchev, Evgueniy ; Maroufmashat, Azadeh ; Hajimiragha, Amir ; Elkamel, Ali ; Sattari, Sourena ; Walker, Sean.
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53. Greenhouse gases emission assessment in residential sector through buildings simulations and operation optimization. (2015). Stojiljkovi, Mirko M ; Ignjatovi, Marko G ; Vukovi, Goran D.
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54. An MILP (mixed integer linear programming) model for optimal design of district-scale distributed energy resource systems. (2015). Yang, Yun ; Xiao, Yunhan ; Zhang, Shijie.
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55. Optimal design of distributed energy resource systems coupled with energy distribution networks. (2015). Yang, Yun ; Xiao, Yunhan ; Zhang, Shijie.
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56. A collaborative operation decision model for distributed building clusters. (2015). Chen, Yang ; Dai, Rui ; Hu, Mengqi ; Yang, Dong.
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57. A detailed model for the optimal management of a multigood microgrid. (2015). Mazzola, Simone ; Astolfi, Marco ; Macchi, Ennio.
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58. Multi-Objective Combinatorial Optimization of Trigeneration Plants Based on Metaheuristics. (2014). Stojiljkovi, Mladen M. ; Blagojevi, Bratislav D..
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59. Allocating resources and products in multi-hybrid multi-cogeneration: What fractions of heat and power are renewable in hybrid fossil-solar CHP?. (2014). Iora, Paolo ; Beretta, Gian Paolo ; Ghoniem, Ahmed F..
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60. Integrated biomass and solar town: Incorporation of load shifting and energy storage. (2014). Ho, Wai Shin ; Macchietto, Sandro ; Lim, Jeng Shiun ; Hashim, Haslenda.
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61. A feasible system integrating combined heating and power system with ground-source heat pump. (2014). Yu, Zhun ; Kang, Shushuo ; Li, Hongqiang ; Zhang, Guoqiang ; Cai, BO.
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62. A mixed-integer linear programming approach for cogeneration-based residential energy supply networks with power and heat interchanges. (2014). Wakui, Tetsuya ; Kinoshita, Takahiro ; Yokoyama, Ryohei.
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63. A new approach for optimum simultaneous multi-DG distributed generation Units placement and sizing based on maximization of system loadability using HPSO (hybrid particle swarm optimization) algorithm. (2014). Aman, M. M. ; Mokhlis, H. ; Jasmon, G. B. ; Bakar, A. H. A., .
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64. MES (multi-energy systems): An overview of concepts and evaluation models. (2014). Mancarella, Pierluigi.
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65. A mathematical model for the optimal operation of the University of Genoa Smart Polygeneration Microgrid: Evaluation of technical, economic and environmental performance indicators. (2014). Bracco, Stefano ; Robba, Michela ; Rossi, Mansueto ; Delfino, Federico ; Pampararo, Fabio .
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66. Optimal structural design of residential cogeneration systems in consideration of their operating restrictions. (2014). Wakui, Tetsuya ; Yokoyama, Ryohei.
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67. Combined cooling, heating and power: A review of performance improvement and optimization. (2014). Mago, Pedro ; Cho, Heejin ; Smith, Amanda D..
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68. A probability constrained multi-objective optimization model for CCHP system operation decision support. (2014). Hu, Mengqi ; Cho, Heejin.
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