Publikationer

[1]
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.
[4]
P. Makhnatch et al., "Characteristics of R454C and R455A as R404A alternatives in commercial refrigeration," i Refrigeration Science and Technology, 2018, s. 547-553.
[5]
M. Karampour och S. Sawalha, "Comparison of State-of-the-art CO2 and Alternative Refrigeration Systems for Supermarkets," i 13th IIR Gustav Lorentzen Conference on Natural Refrigerants, 2018, s. 1298-1306.
[8]
B. Monfared, "Design and optimization of regenerators of a rotary magnetic refrigeration device using a detailed simulation model," International journal of refrigeration, vol. 88, s. 260-274, 2018.
[9]
W. Mazzotti et al., "Design of a Laboratory BoreholeStorage model," i Research Conference Proceedings, 2018, s. 400-410.
[10]
A. Mota-Babiloni et al., "Design of an environmentally friendly refrigeration laboratory based on cooling capacity calculation for graduate students," International journal of engineering education, vol. 34, no. 1, s. 273-282, 2018.
[13]
P. Makhnatch, A. Mota-Babiloni och R. Khodabandeh, "Energy evaluation of drop-in replacements for R134a in cascade CO2/R134a refrigeration units," i Refrigeration Science and Technology, 2018, s. 1147-1153.
[15]
A. Parisio et al., "Energy management systems for intelligent buildings in smart grids," i Intelligent Building Control Systems : A Survey of Modern Building Control and Sensing Strategies, : Springer, 2018, s. 253-291.
[16]
[17]
[18]
P. Makhnatch et al., "Field measurements of AR404A low-temperature supermarket refrigeration system retrofitted with R449A," i Refrigeration Science and Technology, 2018, s. 468-474.
[19]
M. Karampour et al., "Geothermal Storage Integration into Supermarket’s CO2 Refrigeration System," i Proceedings of the IGSHPA Research Track 2018, 2018.
[20]
S. Piscopiello et al., "Guidelines of How to Instrument and Measure and Evaluate Refrigeration Systems in Supermarkets; with Focus on CO2 Trans-Critical Booster Systems," i 13th IIR Gustav Lorentzen Conference on Natural Refrigerants, 2018, s. 1289-1297.
[21]
L. Raka Adrianto, P.-A. Grandjean och S. Sawalha, "Heat Recovery from CO2 Refrigeration System in Supermarkets to District Heating Network," i 13th IIR Gustav Lorentzen Conference, 2018.
[22]
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.
[23]
M. Malmberg et al., "High temperature borehole thermal energy storage - A case study," i Research Conference Proceedings, 2018, s. 380-388.
[24]
N. Purohit et al., "Integrated supermarket refrigeration for very high ambient temperature," Energy, vol. 165, s. 572-590, 2018.
[25]
M.-R. Carlos et al., "Integration of Geothermal Storage in CO2 Refrigeration Systems of Supermarkets," i 13th IIR Gustav Lorentzen Conference on Natural Refrigerants, 2018.
[26]
C. Mateu-Royo et al., "Integration of geothermal storage in CO2 refrigeration systems of supermarkets," i Refrigeration Science and Technology, 2018, s. 1265-1272.
[27]
T. Xu et al., "Large-Capacity Propane Heat Pumps for DHW Production in Residential Buildings," i Refrigeration Science and Technology, 2018, s. 1222-1230.
[28]
B. A Monfared, "Magnetic Refrigeration for Near Room-Temperature Applications," Doktorsavhandling : KTH Royal Institute of Technology, TRITA-ITM-AVL, 2018:18, 2018.
[29]
B. A Monfared och B. Palm, "Material requirements for magnetic refrigeration applications," International journal of refrigeration, vol. 96, s. 25-37, 2018.
[30]
C. M. Lousada, N. Sophonrat och Y. Weihong, "Mechanisms of Formation of H, HO, and Water and of Water Desorption in the Early Stages of Cellulose Pyrolysis," The Journal of Physical Chemistry C, vol. 122, no. 23, s. 12168-12176, 2018.
[31]
P. Monzó, "Modelling and monitoring thermal response of the ground in borehole fields," Doktorsavhandling Stockholm : KTH Royal Institute of Technology, TRITA-ITM-AVL, 2018:1, 2018.
[33]
P. Monzó et al., "Numerical modeling of ground thermal response with borehole heat exchangers connected in parallel," Energy and Buildings, vol. 172, s. 371-384, 2018.
[35]
M. Karampour och S. Sawalha, "State-of-the-Art Integrated CO2 Refrigeration System for Supermarkets : a Comparative Analysis," International journal of refrigeration, vol. 86, s. 239-257, 2018.
[38]
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.
[39]
W. Mazzotti et al., "The Newton-Raphson MethodApplied to the Time-Superposed ILS for Parameter Estimation in Thermal Response Tests," i Research Conference Proceedings : International Ground-Source Heat Pump Association Research Conference 2018, 2018, s. 208-218.
[40]
B. Kjellgren et al., "The Pedagogical Developers Initiative – Sustainable Impact of Falling into Oblivion?," i Proceedings of the 14th International CDIO Conference, 2018, s. 738-747.
[41]
S. N. Gunasekara et al., "Thermal Conductivity Measurement of Erythritol, Xylitol and Their Blends for Phase Change Materials Design : a Methodological Study," i The 14th International Conference on Energy Storage, 2018, s. 364-378.
[42]
H. Zheng et al., "Thermal performance of copper foam/paraffin composite phase change material," Energy Conversion and Management, vol. 157, s. 372-381, 2018.
[43]
D. K. Ratnasari, W. Yang och P. Jönsson, "Two-stage ex-situ catalytic pyrolysis of lignocellulose for the production of gasoline-range chemicals," Journal of Analytical and Applied Pyrolysis, vol. 134, s. 454-464, 2018.
[44]
K. Andersson, E. Granryd och B. Palm, "Water to water heat pump with minimum charge of propane," i Refrigeration Science and Technology, 2018, s. 725-732.
[46]
J. Laanearu et al., "A review on potential use of low-temperature water in the urban environment as a thermal-energy source," i 3RD INTERNATIONAL CONFERENCE ON INNOVATIVE MATERIALS, STRUCTURES AND TECHNOLOGIES (IMST 2017), 2017.
[47]
J. F. Castro Flores et al., "Assessing the techno-economic impact of low-temperature subnets in conventional district heating networks," Energy Procedia, vol. 116, no. C, s. 260-272, 2017.
Fullständig lista i KTH:s publikationsportal