Publikationer av Hatef Madani
Refereegranskade
Artiklar
[1]
B. Francisco et al., "Empirical investigation of solar photovoltaic-thermal collectors for heat pump integration," Applied Thermal Engineering, vol. 248, 2024.
[2]
C. Zhang et al., "Environmental Awareness and Social Sustainability: Insights from an Agent-Based Model with Social Learning and Individual Heterogeneity," Sustainability, vol. 16, no. 17, 2024.
[3]
A. Shahcheraghian, H. Madani Larijani och A. Ilinca, "From White to Black-Box Models : A Review of Simulation Tools for Building Energy Management and Their Application in Consulting Practices," Energies, vol. 17, no. 2, 2024.
[4]
Y. Song et al., "Innovative approaches to overcome inadequate measurements in heat pumps with non-fluorinated refrigerants," Energy Conversion and Management, vol. 319, 2024.
[5]
C. Zhang et al., "Multi-agent simulation of the effects of Japanese electricity market policies on the low-carbon transition," Energy Strategy Reviews, vol. 52, 2024.
[6]
M. Caramaschi et al., "Natural refrigerant mixtures in low-charge heat pumps: An analysis of the potential for performance enhancements," International journal of refrigeration, vol. 165, s. 70-83, 2024.
[7]
Y. Song et al., "Data-driven soft sensors targeting heat pump systems," Energy Conversion and Management, vol. 279, s. 116769, 2023.
[8]
Y. Song et al., "Estimating electric power consumption of in-situ residential heat pump systems : A data-driven approach," Applied Energy, vol. 352, 2023.
[9]
N. Sommerfeldt, I. Lemoine och H. Madani Larijani, "Hide and seek : The supply and demand of information for household solar photovoltaic investment," Energy Policy, vol. 161, s. 112726, 2022.
[10]
B. K. Sovacool et al., "Decarbonizing household heating : Reviewing demographics, geography and low-carbon practices and preferences in five European countries," Renewable & sustainable energy reviews, vol. 139, 2021.
[11]
T. Schreurs et al., "Techno-economic analysis of combined heat pump and solar PV system for multi-family houses : An Austrian case study," Energy Strategy Reviews, vol. 36, 2021.
[12]
X. Wu et al., "A Combined Multi-Level Perspective and Agent-Based Modeling in Low-Carbon Transition Analysis," Energies, vol. 13, no. 19, 2020.
[13]
C. Su et al., "Sea water heat pumps in China : A spatial analysis," Energy Conversion and Management, vol. 203, 2020.
[14]
C. Su, H. Madani Larijani och B. Palm, "Building heating solutions in China : A spatial techno-economic and environmental analysis," Energy Conversion and Management, vol. 179, s. 201-218, 2019.
[15]
N. Sommerfeldt och H. Madani Larijani, "In-depth techno-economic analysis of PV/Thermal plus ground source heat pump systems for multi-family houses in a heating dominated climate," Solar Energy, vol. 190, s. 44-62, 2019.
[16]
C. Su, H. Madani och B. Palm, "Heating solutions for residential buildings in China : Current status and future outlook," Energy Conversion and Management, vol. 177, s. 493-510, 2018.
[17]
S. Poppi et al., "Techno-economic review of solar heat pump systems for residential heating applications," Renewable & sustainable energy reviews, vol. 81, s. 22-32, 2018.
[18]
D. Fischer et al., "Comparison of control approaches for variable speed air source heat pumps considering time variable electricity prices and PV," Applied Energy, vol. 204, s. 93-105, 2017.
[19]
D. Fischer et al., "Model-based flexibility assessment of a residential heat pump pool," Energy, vol. 118, s. 853-864, 2017.
[20]
D. Fischer och H. Madani, "On heat pumps in smart grids : A review," Renewable & sustainable energy reviews, vol. 70, s. 342-357, 2017.
[21]
N. Sommerfeldt och H. Madani Larijani, "Revisiting the techno-economic analysis process for building-mounted, grid-connected solar photovoltaic systems : Part one - Review," Renewable & sustainable energy reviews, vol. 74, s. 1379-1393, 2017.
[22]
N. Sommerfeldt och H. Madani Larijani, "Revisiting the techno-economic analysis process for building-mounted, grid-connected solar photovoltaic systems : Part two - Application," Renewable & sustainable energy reviews, vol. 74, s. 1394-1404, 2017.
[23]
D. Fischer et al., "Impact of PV and variable prices on optimal system sizing for heat pumps and thermal storage," Energy and Buildings, vol. 128, s. 723-733, 2016.
[24]
N. Sommerfeldt och H. Madani, "On the use of hourly pricing in techno-economic analyses for solar photovoltaic systems," Energy Conversion and Management, vol. 102, no. SI, s. 180-189, 2015.
[25]
H. Madani och E. Roccatello, "A comprehensive study on the important faults in heat pump system during the warranty period," International journal of refrigeration, vol. 48, s. 19-25, 2014.
[26]
G. Mader och H. Madani, "Capacity control in air-water heat pumps : Total cost of ownership analysis," Energy and Buildings, vol. 81, s. 296-304, 2014.
[27]
H. Madani, J. Claesson och P. lundqvist, "A descriptive and comparative analysis of three common control techniques for an on/off controlled Ground Source Heat Pump (GSHP) system," Energy and Buildings, vol. 65, s. 1-9, 2013.
[28]
J. Wallin, H. Madani och J. Claesson, "Run-around coil ventilation heat recovery system : A comparative study between different system configurations," Applied Energy, vol. 90, no. 1, s. 258-265, 2012.
[29]
H. Madani Larijani, J. Claesson och P. G. Lundquist, "Capacity control in ground source heat pump systems Part I : modeling and simulation," International journal of refrigeration, vol. 34, no. 6, s. 1338-1347, 2011.
[30]
H. Madani, J. Claesson och P. Lundquist, "Capacity control in ground source heat pump systems part II : Comparative analysis between on/off controlled and variable capacity systems," International journal of refrigeration, vol. 34, no. 8, s. 1934-1942, 2011.
Konferensbidrag
[31]
Y. Song et al., "Development and validation of data-driven soft sensors for heat pumps," i Volume 41: Energy Transitions toward Carbon Neutrality: Part IV, 2024.
[32]
L. R. Payonga et al., "Generic Definition and Information Model for Hybrid Energy Storage Systems (HESS)," i 2024 Open Source Modelling And Simulation Of Energy Systems, Osmses 2024, 2024.
[33]
H. Yang et al., "An Agent-based Model Study on Subsidy Fraud in Technological Transition," i ICAART: Proceedings Of The 14Th International Conference On Agents And Artificial Intelligence - Vol 1, 2022, s. 353-358.
[34]
F. Beltran et al., "Solar Heat Pumps and Self-Consumption Can (and should) electricity suppliers encourage thermal storage?," i 2022 BuildSim Nordic, BSN 2022, 2022.
[35]
N. Sommerfeldt, I. Lemoine och H. Madani Larijani, "A User-Centered Design Approach to Identify Behavioral Biases in the Adoption of Solar PV by Households," i 6th European Conference on Behaviour Change for Energy Efficiency, 2021, s. 134-137.
[36]
A. Hesaraki och H. Madani Larijani, "Energy Performance of Ground-source Heat Pump and Photovoltaic/thermal (PV/T) in Retrofitted and New Buildings : Two Case Studies Using Simulation and On-site Measurements," i BuildSim Nordic 2020 Conference, 2020.
[37]
N. Sommerfeldt, F. Beltran och H. Madani Larijani, "High Market Potential Applications for PVT with Heat Pumps," i PROCEEDINGS OF THE ISES EUROSUN 2020 CONFERENCE - 13TH INTERNATIONAL CONFERENCE ON SOLAR ENERGY FOR BUILDINGS AND INDUSTRY, 2020, s. 551-557.
[38]
C. Su, H. Madani Larijani och B. Palm, "A Systematic multi-criteria assessment infrastucture for residential building heating technologies in China," i 11th International Conference on Applied Energy 2019, 2019.
[39]
C. Su, H. Madani Larijani och B. Palm, "A systematic multi-criteria assessment infrastructure for residential building heating technologies in china," i ICAE 2019 - International Conference on Applied Energy, 2019.
[40]
N. Sommerfeldt och H. Madani Larijani, "A Techno-Economic Comparison between PV and PVT Integrated Ground Source at Pumps for Multi-Family Houses," i Proceedings of the ISES Eurosun 2018 conference, 2018, s. 901-910.
[41]
M. Pressani, N. Sommerfeldt och H. Madani Larijani, "Investigation Of Pv/Thermal Collector Models For Use With Ground Source Heat Pumps In Transient Simulations," i PROCEEDINGS OF THE 11TH ISES EUROSUN 2016 CONFERENCE, 2017, s. 1360-1371.
[42]
N. Sommerfeldt och H. Madani, "REVIEW OF SOLAR PV/THERMAL PLUS GROUND SOURCE HEAT PUMP SYSTEMS FOR EUROPEAN MULTI-FAMILY HOUSES," i Eurosun 2016, 2016.
[43]
H. Madani, "Smart fault detection and diagnosis for heat pump systems," i Refrigeration Science and Technology, 2015, s. 3703-3710.
[44]
D. Fischer et al., "Smart meter enabled control for variable speed heat pumps to increase PV self-consumption," i Refrigeration Science and Technology, 2015, s. 4049-4056.
[45]
D. Fischer et al., "Test cases for hardware in the loop testing of air to water heat pump systems in a smart grid context," i Refrigeration Science and Technology, 2015, s. 3666-3673.
[46]
M. Zampollo, H. Madani och P. Lundqvist, "The role of heat pumps in smart grids," i Refrigeration Science and Technology, 2015, s. 3905-3913.
[47]
N. Sommerfeldt och H. Madani, "Improved methodology for determining the value of energy from distributed renewables using statistical analysis combined with normative scenarios," i Energy Procedia, 2014, s. 1089-1092.
[48]
A. C. Fischer et al., "Investigation of Thermal Storage Operation Strategies with Heat Pumps in German Multi Family Houses," i Energy Procedia, 2014, s. 137-144.
[49]
H. Madani, "The common and costly faults in heat pump systems," i Energy Procedia, 2014, s. 1803-1806.
[50]
H. Madani och P. Lundqvist, "Evaluation of the annual performance of Ground Source Heat Pump systems : A comparison between single speed and variable speed systems," i 23rd IIR International Congress of Refrigeration, 2011, s. 3741-3748.
[51]
H. Madani et al., "Experimental Analysis of a Variable Capacity Heat Pump System Focusing on the Compressor and Inverter Loss Behavior," i Proceeding International Refrigeration and Air Conditioning Conference, 2010.
[52]
J. Wallin, H. Madani och J. Claesson, "Run-around coil ventilation heat recovery system : A comparative study between different system configurations," i ICAE 2010 – International conference on Applied energy – Singapore 21‐23 April 2010, 2010.
[53]
H. Madani et al., "The Ground Source Heat Pump : A System Analysis With a Particular Focus on The U-Pipe Borehole Heat Exchanger," i 2010 14th International Heat Transfer Conference, Volume 4, 2010, s. 395-402.
[54]
J. Wallin, H. Madani och J. Claesson, "Ventilation heat recovery with run around coil : System analysis and a study on efficiency improvement – Part I," i ASHRAE Region-At-Large conference. Kuwait. 3-5 October 2009, 2009.
[55]
J. Wallin, H. Madani och J. Claesson, "Ventilation heat recovery with run around coil - System analysis and a study on efficency improvment - Part I," i Ashrae - Symposium on “Sustainability and Green Buildings”, October 5, 2009, KUWAIT, 2009.
[56]
H. Madani, J. Claesson och P. Lundqvist, "Variable capacity heat pump systems, modeling and simulation," i 9th International Energy Agency Heat pump conference, 2008.
[57]
H. Madani, P. Lundqvist och J. Claesson, "Variable capacity heat pumps, modelling and simulation," i IEA Heat Pump conference Proceeding (2008) 9th International Energy Agency Heat Pump Conference, 2008.
Icke refereegranskade
Artiklar
[58]
H. Madani, "Variable capacity heat pump system in a single family house: dynamic modeling and simulation," Journal of federation of European HVAC association (REHVA), no. 13, 2009.
Konferensbidrag
[59]
H. Madani, J. Claesson och P. lundqvist, "Retrofitting a variable capacity heat pump to a ventilation heat recovery system : modeling and performance analysis," i International Conference on Applied Energy, 2010.
[60]
H. Madani, J. Wallin och J. Claesson, "Ventilation heat recovery with run around coil : System analysis and a study on efficiency improvement – Part II," i ASHRAE Region-At-Large conference. Kuwait. 3-5 October 2009, 2009.
Avhandlingar
[61]
H. Madani, "Capacity-controlled Ground Source Heat Pump Systems for Swedish single-family dwellings," Doktorsavhandling Stockholm : KTH Royal Institute of Technology, Trita-REFR, 12:03, 2012.
Rapporter
[62]
N. Sommerfeldt och H. Madani Larijani, "Ground Source Heat Pumps for Swedish Multi-Family Houses : Innovative Co-Generation and Thermal Storage Strategies," , 2018.
[63]
N. Sommerfeldt, H. Muyingo och T. af Klintberg, "Photovoltaic Systems for Swedish Prosumers : A technical and economic analysis focused on cooperative multi-family housing," Stockholm : KTH Royal Institute of Technology, 2016.
[64]
H. Madani, P. Lundqvist och J. Claesson, "P5 – Dynamic heat pump system with capacity control," , 2010.
Övriga
[65]
[66]
G. Mader, H. Madani och H. Bakhtiari, "Economic optimization of component sizes in a ground source heat pump system," (Manuskript).
Senaste synkning med DiVA:
2024-11-19 00:35:02