1. Hydrothermal modeling and decoupling analysis for secondary district heating systems: A digital twin approach. (2025). Wang, Yaran ; Zhang, QI ; Xu, Xin ; Dai, Ting ; Liu, Zhikai.
   In: Energy.
   RePEc:eee:energy:v:322:y:2025:i:c:s0360544225013234.

   Full description at Econpapers || Download paper

2. 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.

   Full description at Econpapers || Download paper

3. The First Fifth-Generation District Heating and Cooling System in Kazakhstan: Planning and Design. (2024). Zhuikov, Andrey ; Pyanykh, Tatyana ; Zhuikova, Yana ; Chicherin, Stanislav ; Baidyussenov, Galym ; Abildinova, Saule.
   In: Energies.
   RePEc:gam:jeners:v:17:y:2024:i:23:p:6169-:d:1538602.

   Full description at Econpapers || Download paper

4. Dynamic thermal simulation of a tree-shaped district heating network based on discrete event simulation. (2024). Bjrkstam, Maximilian ; Lahdelma, Risto ; Xie, Zichan ; Wang, Haichao ; Hua, Pengmin.
   In: Energy.
   RePEc:eee:energy:v:313:y:2024:i:c:s0360544224035539.

   Full description at Econpapers || Download paper

5. A methodology for feasibility analyses of district heating networks: A case study applied to greenhouse crops. (2024). Torres, Jose Luis ; Alvarez, Jose Domingo ; Ramos-Teodoro, Jeronimo.
   In: Energy.
   RePEc:eee:energy:v:301:y:2024:i:c:s0360544224014683.

   Full description at Econpapers || Download paper

1. Allen, A. ; Henze, G. ; Baker, K. ; Pavlak, G. Evaluation of low-exergy heating and cooling systems and topology optimization for deep energy savings at the urban district level. 2020 Energy Convers Manage. 222 -
   Paper not yet in RePEc: Add citation now
   
2. Association, M. Functional mock-up interface. 2022 :
   Paper not yet in RePEc: Add citation now
   
3. Assouline, D. ; Mohajeri, N. ; Gudmundsson, A. ; Scartezzini, J.-L. A machine learning approach for mapping the very shallow theoretical geothermal potential. 2019 Geotherm Energy. 7 19-
   Paper not yet in RePEc: Add citation now
   
4. Benonysson, A. Dynamic modelling and operational optimization of district heating systems. 1991 :
   Paper not yet in RePEc: Add citation now
   

5. Blanco, I. ; Guericke, D. ; Andersen, A.N. ; Madsen, H. Operational planning and bidding for district heating systems with uncertain renewable energy production. 2018 Energies. 11 3310-

6. Blommaert, M. ; Wack, Y. ; Baelmans, M. An adjoint optimization approach for the topological design of large-scale district heating networks based on nonlinear models. 2020 Appl Energy. 280 -

7. Boesten, S. ; Ivens, W. ; Dekker, S.C. ; Eijdems, H. 5th generation district heating and cooling systems as a solution for renewable urban thermal energy supply. 2019 Adv Geosci. 49 129-136
   Paper not yet in RePEc: Add citation now
   

8. Bühler, F. ; Petrović, S. ; Karlsson, K. ; Elmegaard, B. Industrial excess heat for district heating in Denmark. 2017 Appl Energy. 205 991-1001

9. Capone, M. ; Guelpa, E. ; Verda, V. Accounting for pipeline thermal capacity in district heating simulations. 2021 Energy. 219 -

10. Çengel, Y. . 2003 En : Heat transfer: A practical approach. McGraw-Hill:
    Paper not yet in RePEc: Add citation now
    
11. Clappier, M. Evaluation of the potential of the solar thermal in district heating networks in Switzerland. 2021 EPFL:
    Paper not yet in RePEc: Add citation now
    
12. Cognet, P. District energy network simulation for the evaluation of solar thermal potential. 2020 EPFL:
    Paper not yet in RePEc: Add citation now
    

13. Connolly, D. ; Lund, H. ; Mathiesen, B. ; Werner, S. ; Möller, B. ; Persson, U. ; Boermans, T. ; Trier, D. ; Østergaard, P. ; Nielsen, S. Heat roadmap europe: Combining district heating with heat savings to decarbonise the EU energy system. 2014 Energy Policy. 65 475-489

14. Council, S.F. Potentiel des installations de chauffage et de refroidissement à distance — rapport du conseil fédéral en réponse au postulat 19.4051, groupe libéral-radical, 18 septembre 2019. 2021 :
    Paper not yet in RePEc: Add citation now
    

15. Dancker, J. ; Wolter, M. Improved quasi-steady-state power flow calculation for district heating systems: A coupled Newton-raphson approach. 2021 Appl Energy. 295 -

16. De la Cruz, I. ; Ugalde-Loo, C.E. District heating and cooling systems. 2021 En : Microgrids and local energy systems. IntechOpen London:
    Paper not yet in RePEc: Add citation now
    

17. Dénarié, A. ; Aprile, M. ; Motta, M. Dynamical modelling and experimental validation of a fast and accurate district heating thermo-hydraulic modular simulation tool. 2023 Energy. 282 -

18. Dénarié, A. ; Aprile, M. ; Motta, M. Heat transmission over long pipes: New model for fast and accurate district heating simulations. 2019 Energy. 166 267-276

19. Egging-Bratseth, R. ; Kauko, H. ; Knudsen, B.R. ; Bakke, S.A. ; Ettayebi, A. ; Haufe, I.R. Seasonal storage and demand side management in district heating systems with demand uncertainty. 2021 Appl Energy. 285 -

20. Groissböck, M. Are open source energy system optimization tools mature enough for serious use?. 2019 Renew Sustain Energy Rev. 102 234-248
    Paper not yet in RePEc: Add citation now
    

21. Guelpa, E. ; Toro, C. ; Sciacovelli, A. ; Melli, R. ; Sciubba, E. ; Verda, V. Optimal operation of large district heating networks through fast fluid-dynamic simulation. 2016 Energy. 102 586-595

22. Guelpa, E. ; Verda, V. Compact physical model for simulation of thermal networks. 2019 Energy. 175 998-1008

23. Hafsi, Z. Accurate explicit analytical solution for Colebrook-white equation. 2021 Mech Res Commun. 111 -
    Paper not yet in RePEc: Add citation now
    

24. Hirsch, H. ; Nicolai, A. An efficient numerical solution method for detailed modelling of large 5th generation district heating and cooling networks. 2022 Energy. 255 -

25. Hussein, A. ; Klein, A. Modelling and validation of district heating networks using an urban simulation platform. 2021 Appl Therm Eng. 187 -
    Paper not yet in RePEc: Add citation now
    
26. IEA-SHC, S.F. IEA SHC Task 55. Integration of large-scale solar heating and cooling systems into district heating and cooling Networks. 2021 International Energy Agency:
    Paper not yet in RePEc: Add citation now
    
27. IEA. Energy technology perspectives 2020. Technical report, 2020.
    Paper not yet in RePEc: Add citation now
    
28. IRENA, S.F. Renewable energy in district heating and cooling, a sector roadmap for remap. 2017 International Renewable Energy Agency: Abu Dhabi
    Paper not yet in RePEc: Add citation now
    
29. Kämpf, J.H. On the modelling and optimisation of urban energy fluxes. 2009 EPFL:
    Paper not yet in RePEc: Add citation now
    

30. Kudela, L. ; Chýlek, R. ; Pospíšil, J. Efficient integration of machine learning into district heating predictive models. 2020 Energies. 13 6381-

31. Kusuda, T. ; Achenbach, P.R. Earth temperature and thermal diffusivity at selected stations in the United States. 1965 National Bureau of Standards Gaithersburg MD:
    Paper not yet in RePEc: Add citation now
    

32. Leitner, B. ; Widl, E. ; Gawlik, W. ; Hofmann, R. A method for technical assessment of power-to-heat use cases to couple local district heating and electrical distribution grids. 2019 Energy. 182 729-738

33. Lohmeier, D. ; Cronbach, D. ; Drauz, S.R. ; Braun, M. ; Kneiske, T.M. Pandapipes: An open-source piping grid calculation package for multi-energy grid simulations. 2020 Sustainability. 12 9899-

34. Lund, H. ; Østergaard, P.A. ; Nielsen, T.B. ; Werner, S. ; Thorsen, J.E. ; Gudmundsson, O. ; Arabkoohsar, A. ; Mathiesen, B.V. Perspectives on fourth and fifth generation district heating. 2021 Energy. 227 -

35. Lund, H. ; Werner, S. ; Wiltshire, R. ; Svendsen, S. ; Thorsen, J.E. ; Hvelplund, F. ; Mathiesen, B.V. 4th generation district heating (4GDH). 2014 Energy. 68 1-11

36. Matthews, T. ; Thompson, C. ; Wilson, D. ; Hawthorne, A. ; Mage, D. Air velocities inside domestic environments: an important parameter in the study of indoor air quality and climate. 1989 Environ Int. 15 545-550
    Paper not yet in RePEc: Add citation now
    
37. Maurer, J. ; Ratzel, O.M. ; Malan, A.J. ; Hohmann, S. Comparison of discrete dynamic pipeline models for operational optimization of district heating networks. 2021 Energy Rep. 7 244-253
    Paper not yet in RePEc: Add citation now
    
38. Mbiydzenyuy, G. ; Nowaczyk, S. ; Knutsson, H. ; Vanhoudt, D. ; Brage, J. ; Calikus, E. Opportunities for machine learning in district heating. 2021 Appl Sci. 11 6112-
    Paper not yet in RePEc: Add citation now
    
39. Menapace, A. ; Boscheri, W. ; Baratieri, M. ; Righetti, M. An efficient numerical scheme for the thermo-hydraulic simulations of thermal grids. 2020 Int J Heat Mass Transfer. 161 -
    Paper not yet in RePEc: Add citation now
    
40. Oppelt, T. ; Urbaneck, T. ; Gross, U. ; Platzer, B. Dynamic thermo-hydraulic model of district cooling networks. 2016 Appl Therm Eng. 102 336-345
    Paper not yet in RePEc: Add citation now
    
41. Osiadacz, A.J. ; Pienkosz, K. Methods of steady-state simulation for gas networks. 1988 Internat J Systems Sci. 19 1311-1321
    Paper not yet in RePEc: Add citation now
    
42. Popiel, C. ; Wojtkowiak, J. Simple formulas for thermophysical properties of liquid water for heat transfer calculations (from 0°C to 150°C). 1998 Heat Transf Eng. 19 87-101
    Paper not yet in RePEc: Add citation now
    
43. Sarbu, I. ; Mirza, M. ; Crasmareanu, E. A review of modelling and optimisation techniques for district heating systems. 2019 Int J Energy Res. -
    Paper not yet in RePEc: Add citation now
    

44. Sartor, K. ; Dewalef, P. Experimental validation of heat transport modelling in district heating networks. 2017 Energy. 137 961-968

45. Sartor, K. ; Thomas, D. ; Dewallef, P. A comparative study for simulating heat transport in large district heating networks. 2018 Int J Heat Technol. 36 301-308
    Paper not yet in RePEc: Add citation now
    

46. Schweiger, G. ; Heimrath, R. ; Falay, B. ; O’Donovan, K. ; Nageler, P. ; Pertschy, R. ; Engel, G. ; Streicher, W. ; Leusbrock, I. District energy systems: Modelling paradigms and general-purpose tools. 2018 Energy. 164 1326-1340

47. Simonsson, J. ; Atta, K.T. ; Schweiger, G. ; Birk, W. Experiences from city-scale simulation of thermal grids. 2021 Resources. 10 10-

48. Stevanovic, V.D. ; Prica, S. ; Maslovaric, B. ; Zivkovic, B. ; Nikodijevic, S. Efficient numerical method for district heating system hydraulics. 2007 Energy Convers Manage. 48 1536-1543
    Paper not yet in RePEc: Add citation now
    
49. Talebi, B. ; Mirzaei, P.A. ; Bastani, A. ; Haghighat, F. A review of district heating systems: Modeling and optimization. 2016 Front Built Environ. 2 22-
    Paper not yet in RePEc: Add citation now
    
50. Thorsen, J.E. ; Lund, H. ; Mathiesen, B.V. Progression of district heating–1st to 4th generation. 2018 :
    Paper not yet in RePEc: Add citation now
    
51. Thurner, L. ; Scheidler, A. ; Schäfer, F. ; Menke, J.-H. ; Dollichon, J. ; Meier, F. ; Meinecke, S. ; Braun, M. Pandapower—an open-source python tool for convenient modeling, analysis, and optimization of electric power systems. 2018 IEEE Trans Power Syst. 33 6510-6521
    Paper not yet in RePEc: Add citation now
    
52. Tol, H.I. Development of a physical hydraulic modelling tool for district heating systems. 2021 Energy Build. 253 -
    Paper not yet in RePEc: Add citation now
    
53. van der Heijde, B. ; Fuchs, M. ; Ribas Tugores, C. ; Schweiger, G. ; Sartor, K. ; Basciotti, D. ; Müller, D. ; Nytsch-Geusen, C. ; Wetter, M. ; Helsen, L. Dynamic equation-based thermo-hydraulic pipe model for district heating and cooling systems. 2017 Energy Convers Manage. 151 158-169
    Paper not yet in RePEc: Add citation now
    
54. Vesterlund, M. ; Toffolo, A. ; Dahl, J. Simulation and analysis of a meshed district heating network. 2016 Energy Convers Manage. 122 63-73
    Paper not yet in RePEc: Add citation now
    
55. von Rueden, L. ; Mayer, S. ; Sifa, R. ; Bauckhage, C. ; Garcke, J. Combining machine learning and simulation to a hybrid modelling approach: Current and future directions. 2020 En : International symposium on intelligent data analysis. Springer:
    Paper not yet in RePEc: Add citation now
    

56. Wack, Y. ; Baelmans, M. ; Salenbien, R. ; Blommaert, M. Economic topology optimization of district heating networks using a pipe penalization approach. 2023 Energy. 264 -

57. Wang, J. ; Zhou, Z. ; Zhao, J. A method for the steady-state thermal simulation of district heating systems and model parameters calibration. 2016 Energy Convers Manage. 120 294-305
    Paper not yet in RePEc: Add citation now
    

58. Wang, Y. ; You, S. ; Zhang, H. ; Zheng, X. ; Zheng, W. ; Miao, Q. ; Lu, G. Thermal transient prediction of district heating pipeline: Optimal selection of the time and spatial steps for fast and accurate calculation. 2017 Appl Energy. 206 900-910

59. Wetter, M. ; van Treeck, C. ; Helsen, L. ; Maccarini, A. ; Saelens, D. ; Robinson, D. ; Schweiger, G. IBPSA project 1: BIM/GIS and modelica framework for building and community energy system design and operation–ongoing developments, lessons learned and challenges. 2019 En : IOP conference series: earth and environmental science, Vol. 323. IOP Publishing:
    Paper not yet in RePEc: Add citation now
    
60. Zeghadnia, L. ; Robert, J.L. ; Achour, B. Explicit solutions for turbulent flow friction factor: A review, assessment and approaches classification. 2019 Ain Shams Eng J. 10 243-252
    Paper not yet in RePEc: Add citation now
    

61. Zhang, M. ; Wu, Q. ; Wen, J. ; Lin, Z. ; Fang, F. ; Chen, Q. Optimal operation of integrated electricity and heat system: A review of modeling and solution methods. 2021 Renew Sustain Energy Rev. 135 -

62. Zhang, S. ; Gu, W. ; Lu, H. ; Qiu, H. ; Lu, S. ; Wang, D. ; Liang, J. ; Li, W. Superposition-principle based decoupling method for energy flow calculation in district heating networks. 2021 Appl Energy. 295 -

1. Modelling and Transient Simulation of District Heating Networks Based on a Control Theory Approach. (2025). Hoster, Harry ; Roes, Jrgen ; Scheipers, Jan ; Schojda, Dominik.
   In: Energies.
   RePEc:gam:jeners:v:18:y:2025:i:3:p:658-:d:1580861.

   Full description at Econpapers || Download paper

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.

   Full description at Econpapers || Download paper

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.

   Full description at Econpapers || Download paper

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.

   Full description at Econpapers || Download paper

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.

   Full description at Econpapers || Download paper

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.
   In: Energy.
   RePEc:eee:energy:v:304:y:2024:i:c:s0360544224017432.

   Full description at Econpapers || Download paper

7. A two-phase nonlinear optimization method for routing and sizing district heating systems. (2024). Lambert, Jerry ; Spliethoff, Hartmut.
   In: Energy.
   RePEc:eee:energy:v:302:y:2024:i:c:s0360544224016165.

   Full description at Econpapers || Download paper

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

   Full description at Econpapers || Download paper

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

   Full description at Econpapers || Download paper

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.
    In: Applied Energy.
    RePEc:eee:appene:v:367:y:2024:i:c:s0306261924007633.

    Full description at Econpapers || Download paper

11. District Heating System Optimisation: A Three-Phase Thermo-Hydraulic Linear Model. (2023). Kaszyski, Przemysaw ; Sauga, Piotr ; Paka, Piotr ; Malec, Marcin ; Kamiski, Jacek.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2023:i:8:p:3316-:d:1118589.

    Full description at Econpapers || Download paper

12. Geographically informed automated non-linear topology optimization of district heating networks. (2023). Wack, Y ; Salenbien, R ; Blommaert, M ; Baelmans, M.
    In: Energy.
    RePEc:eee:energy:v:283:y:2023:i:c:s0360544223022922.

    Full description at Econpapers || Download paper

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

    Full description at Econpapers || Download paper

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.
    In: Energy.
    RePEc:eee:energy:v:278:y:2023:i:pb:s0360544223013713.

    Full description at Econpapers || Download paper

15. Distributionally robust day-ahead combined heat and power plants scheduling with Wasserstein Metric. (2023). Wu, Qiuwei ; Skalyga, Mikhail ; Amelin, Mikael ; Soder, Lennart.
    In: Energy.
    RePEc:eee:energy:v:269:y:2023:i:c:s0360544223001871.

    Full description at Econpapers || Download paper

16. Economic topology optimization of District Heating Networks using a pipe penalization approach. (2023). Wack, Yannick ; Salenbien, Robbe ; Baelmans, Martine ; Blommaert, Maarten.
    In: Energy.
    RePEc:eee:energy:v:264:y:2023:i:c:s036054422203047x.

    Full description at Econpapers || Download paper

17. Heat load forecasting using adaptive spatial hierarchies. (2023). Sorensen, Mikkel Lindstrom ; Moller, Jan Kloppenborg ; Bergsteinsson, Hjorleifur G ; Madsen, Henrik.
    In: Applied Energy.
    RePEc:eee:appene:v:350:y:2023:i:c:s0306261923010401.

    Full description at Econpapers || Download paper

18. Can occupant behaviors affect urban energy planning? Distributed stochastic optimization for energy communities. (2023). Zeiler, Wim ; Leprince, Julien ; Madsen, Henrik ; Dominkovic, Dominik Franjo ; Guericke, Daniela ; Schledorn, Amos.
    In: Applied Energy.
    RePEc:eee:appene:v:348:y:2023:i:c:s0306261923009534.

    Full description at Econpapers || Download paper

19. 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.

    Full description at Econpapers || Download paper

20. 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.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:159:y:2022:i:c:s136403212200123x.

    Full description at Econpapers || Download paper

21. 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.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:154:y:2022:i:c:s1364032121011205.

    Full description at Econpapers || Download paper

22. 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.
    In: Energy.
    RePEc:eee:energy:v:261:y:2022:i:pb:s0360544222019557.

    Full description at Econpapers || Download paper

23. Formulation and assessment of multi-objective optimal sizing of district heating network. (2022). Merlet, Yannis ; Baviere, Roland ; Vasset, Nicolas.
    In: Energy.
    RePEc:eee:energy:v:252:y:2022:i:c:s0360544222009008.

    Full description at Econpapers || Download paper

24. New rolling horizon optimization approaches to balance short-term and long-term decisions: An application to energy planning. (2022). Lemaire, Pierre ; Cuisinier, Etienne ; Bourasseau, Cyril ; Penz, Bernard ; Ruby, Alain.
    In: Energy.
    RePEc:eee:energy:v:245:y:2022:i:c:s036054422103022x.

    Full description at Econpapers || Download paper

25. Stochastic energy optimization of residential heat pumps in uncertain electricity markets. (2021). Golmohamadi, Hessam.
    In: Applied Energy.
    RePEc:eee:appene:v:303:y:2021:i:c:s0306261921009971.

    Full description at Econpapers || Download paper

26. Heat load forecasting using adaptive temporal hierarchies. (2021). Nystrup, Peter ; Palsson, Olafur Petur ; Moller, Jan Kloppenborg ; Bergsteinsson, Hjorleifur G ; Madsen, Henrik ; Guericke, Daniela.
    In: Applied Energy.
    RePEc:eee:appene:v:292:y:2021:i:c:s0306261921003603.

    Full description at Econpapers || Download paper

27. The Benefits of Local Cross-Sector Consumer Ownership Models for the Transition to a Renewable Smart Energy System in Denmark. An Exploratory Study. (2020). Gorroo-Albizu, Leire.
    In: Energies.
    RePEc:gam:jeners:v:13:y:2020:i:6:p:1508-:d:335644.

    Full description at Econpapers || Download paper

28. Evaluation of Energy Transition Pathways to Phase out Coal for District Heating in Berlin. (2020). Langrock, Thomas ; Gonzalez-Salazar, Miguel ; Ritzau, Michael ; Witt, Markus ; Spiess, Jana ; Koch, Christoph ; Michels, Armin ; Noack, Alexander.
    In: Energies.
    RePEc:gam:jeners:v:13:y:2020:i:23:p:6394-:d:455711.

    Full description at Econpapers || Download paper

29. An Evolutionary Game Study of Clean Heating Promotion Mechanisms under the Policy Regulation in China. (2019). Tan, Zhongfu ; Wang, Qiang ; Pu, Lei ; De, Gejirifu.
    In: Sustainability.
    RePEc:gam:jsusta:v:11:y:2019:i:14:p:3778-:d:247151.

    Full description at Econpapers || Download paper

Report date: 2025-10-04 14:13:29 || Missing content? Let us know