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Publikationer av Samer Sawalha

Refereegranskade

Artiklar

[1]
D. Steuer et al., "Thermal energy export from supermarket refrigeration systems: Drivers and barriers," Energy Reports, vol. 12, s. 5875-5885, 2024.
[5]
T. Xu et al., "Latent heat storage integration into heat pump based heating systems forenergy-efficient load shifting," Energy Conversion and Management, vol. 236, no. 114042, 2021.
[7]
C. Mateu-Royo et al., "High temperature heat pump integration into district heating network," Energy Conversion and Management, vol. 210, 2020.
[10]
[11]
W. M. Duarte et al., "Refrigerants selection for a direct expansion solar assisted heat pump for domestic hot water," Solar Energy, vol. 184, no. May, s. 527-538, 2019.
[12]
N. Purohit et al., "Integrated supermarket refrigeration for very high ambient temperature," Energy, vol. 165, s. 572-590, 2018.
[13]
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.
[14]
M. Karampour och S. Sawalha, "Energy Efficiency Evaluation of Integrated CO2 Trans-critical System in Supermarkets : A Field Measurements and Modelling Analysis," International journal of refrigeration, vol. 82, s. 470-486, 2017.
[16]
S. Sawalha, M. Karampour och J. Rogstam, "Field measurements of supermarket refrigeration systems : Part I: Analysis of CO2 trans-critical refrigeration systems," Applied Thermal Engineering, vol. 87, s. 633-647, 2015.
[17]
S. Sawalha, "Investigation of heat recovery in CO2 trans-critical solution for supermarket refrigeration," International journal of refrigeration, vol. 36, no. 1, s. 145-156, 2012.

Konferensbidrag

[20]
S. Thanasoulas et al., "Field measurement analysis of centralized refrigeration systems' evaporators under overfeed conditions," i 26th IIR international congress of refrigeration, vol 2, 2023, s. 1694-1703.
[21]
S. Thanasoulas, S. Sawalha och J. Arias, "Supermarket case study : analysis of refrigeration system with heating, air conditioning and ground storage integration," i 26th IIR international congress of refrigeration, vol 2, 2023, s. 1712-1721.
[22]
S. Thanasoulas och S. Sawalha, "Field measurement analysis of integrated refrigeration system in a new supermarket," i 14th Gustav Lorentzen Conference, Kyoto, Japan, 6th- 9th December, 2020, 2020.
[23]
S. Thanasoulas, J. Arias Hurtado och S. Sawalha, "Theoretical analysis of the power and annual energy demands of a supermarket with a CO2 refrigeration cycle," i 14th Gustav Lorentzen Conference, Kyoto, Japan, 6th- 9th December, 2020, 2020.
[24]
T. Xu, Y. Hao och S. Sawalha, "Comparing integrating configurations of latent heat storage in heat pump heating systems," i Proceedings of the 25th IIR International Congress of Refrigeration, 2019, s. 4883-4890.
[25]
M. Karampour et al., "Integration of Supermarket’s CO2 Refrigeration System and Geothermal Storage," i 25th IIR International Congress of Refrigeration, August 24-30, 2019, Montreal, Canada, 2019, s. 2208-2215.
[26]
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.
[27]
M. Karampour et al., "Geothermal Storage Integration into Supermarket’s CO2 Refrigeration System," i Proceedings of the IGSHPA Research Track 2018, 2018.
[28]
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.
[29]
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.
[30]
C. Mateu-Royo et al., "Integration of geothermal storage in CO2 refrigeration systems of supermarkets," i Refrigeration Science and Technology, 2018, s. 1265-1272.
[31]
T. Xu et al., "Large-Capacity Propane Heat Pumps for DHW Production in Residential Buildings," i Refrigeration Science and Technology, 2018, s. 1222-1230.
[32]
[34]
T. Xu et al., "Performance Evaluation of a Large Capacity Air-Water Heat Pump Using Propane as Refrigerant," i 12th IIR-Gustav Lorentzen Conference on Natural Refrigerants - GL2016, 21/08/2016 - 24/08/2016, UK, 2016.
[35]
S. Piscopiello et al., "Performance evaluation of a large capacity water-water heat pump using propane as refrigerant," i Refrigeration Science and Technology, 2016, s. 803-810.
[36]
M. Karampour et al., "Review of supermarket refrigeration and heat recovery research at KTH-Sweden," i 6th IIR Conference: Ammonia and CO2 Refrigeration Technologies, 2015.
[37]
[38]
M. Karampour och S. Sawalha, "Theoretical analysis of CO2 trans-critical system with parallel compression for heat recovery and air conditioning in supermarkets," i The 24th IIR International Congress of Refrigeration - ICR2015, 2015.
[39]
J. Rogstam, A. Abdi och S. Sawalha, "Carbon dioxide in ice rink refrigeration," i 11th IIR Gustav Lorentzen Conference on Natural Refrigerants : Natural Refrigerants and Environmental Protection, GL 2014, 2014, s. 585-592.
[40]
A. Abdi, S. Sawalha och M. Karampour, "Heat recovery investigation of a supermarket refrigeration system using carbon dioxide as refrigerant," i 11th IIR Gustav Lorentzen Conference on Natural Refrigerants : Natural Refrigerants and Environmental Protection, GL 2014, 2014, s. 277-285.
[41]
M. Karampour och S. Sawalha, "Investigation of using Internal Heat Exchangers in CO2 Trans-critical Booster System," i 11th IIR Gustav Lorentzen Conference on Natural Refrigerants : Natural Refrigerants and Environmental Protection, GL 2014, 2014, s. 453-460.
[42]
M. Karampour och S. Sawalha, "Investigation of using Internal Heat Exchangers inCO(2) Trans-critical Booster System," i 11th IIR gustav lorentzen conference on natural refrigerants (2014) : Natural refrigerants and environmental protection, 2014, s. 453-460.
[43]
M. Karampour och S. Sawalha, "Performance and control strategies analysis of a CO2 trans-critical booster system," i 3rd IIR International Conference on Sustainability and the Cold Chain, ICCC 2014, London, United Kingdom, 23-25 June 2014, 2014, s. 623-630.
[44]
R. Ohannessian och S. Sawalha, "Thermal energy storage potential in supermarkets," i Refrigeration Science and Technology, 2014, s. 452-459.
[45]
M. Karampour, S. Sawalha och J. Rogstam, "Field Measurements and Performance Evaluation of CO2 Supermarket Refrigeration Systems," i 2nd IIR International Conference on Sustainability and the Cold Chain. Proceedings : Paris, France, April 2-4, 2013, 2013.
[46]
J. Rogstam, M. Louis Tamilarasan och S. Sawalha, "Field Measurements and Comparison of Supermarket Refrigeration Systems," i Field Measurements and Comparison of Supermarket Refrigeration Systems, 2010.
[47]
S. Sawalha et al., "Experimental Investigation of NH3/CO2 Cascade system and comparison to R404A system for supermarket refrigeration," i 22nd IIR International Congress of Refrigeration. Beijing, China. August 21-26, 2007, 2007.
[48]
S. Sawalha, K. A. Soleimani och J. Rogstam, "Experimental and Theoretical Evaluation of NH3/CO2 Cascade System for Supermarket Refrigeration in Laboratory Environment," i 7th IIR Gustav Lorentzen Conference on Natural Working Fluids. 2006: Trondheim, Norway, 2006.
[49]
P.-O. Nilsson et al., "Ice Rink Refrigeration System with Carbon Dioxide as Secondary Fluid in Copper Tubes," i 7th IIR Gustav Lorentzen Conference on Natural Working Fluids. 2006: Trondheim, Norway, 2006.
[50]
J. Rogstam, S. Sawalha och P.-O. Nilsson, "Ice Rink Refrigeration System with CO2 as Secondary Fluid," i IIR International conference on Thermophysical Properties and Transfer Processes of Refrigerants. Vicenza, Italy. 30-31 August 2005, 2005.
[51]
S. Sawalha, J. Rogstam och P.-O. Nilsson, "Laboratory Tests of NH3/CO2 Cascade System for Supermarket Refrigeration," i IIR International Conference on Commercial Refrigeration. 2005. Vicenza, Italy, 2005.
[52]
S. Sawalha och B. Palm, "Energy Consumption Evaluation of Indirect Systems with CO2 as Secondary Refrigerant in Supermarket Refrigeration," i 21st IIR International Congress of Refrigeration. 2003, Washington, D.C. USA, 2003.
[53]
S. Sawalha och B. Palm, "Safety Analysis of CO2 as a Refrigerant in Supermarket Refrigeration," i 5th IIR Gustav Lorentzen Conference on Natural Working Fluids, 2002, Guangzhou, China, 2002.

Kapitel i böcker

[54]
S. Sawalha, "Commercial Refrigeration," i Natural refrigerant CO2, WALTER REULENS red., : KHLim vzw, 2009, s. 101-172.
[55]
S. Sawalha, "Safety of CO2 in large refrigeration systems," i Natural Refrigerants : Sustainable Ozone- and Climate-Friendly Alternatives to HCFCs, Dr. Volkmar Hasse, Linda Ederberg, Dr. Daniel Colbourne red., : Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH, – German Technical Cooperation -Programme Proklima, 2008, s. 81-93.

Icke refereegranskade

Artiklar

[56]
S. Sawalha, "Using CO2 in supermarket refrigeration," ASHRAE Journal, vol. 47, no. 8, s. 26-30, 2005.
[57]
S. Sawalha och B. Palm, "Securité d’utilisation du CO2 dans un supermarché," Revue General du Froid, no. 1042, s. 39-43, 2004.

Konferensbidrag

[58]
S. Sawalha, B. Palm och L. Rolfsman, "CO2 as Secondary Refrigerant in Sweden," i IEA Annex 27 Workshop: Selected Issues on CO2 as Working Fluid in Compression Systems. 2000. Trondheim, Norway, 2000.

Avhandlingar

[59]
S. Sawalha, "Carbon Dioxide in Supermarket Refrigeration," Doktorsavhandling Stockholm : KTH, Trita-REFR, 08/60, 2008.

Proceedings (redaktörskap)

[64]
"Annex 31 : advanced modelling and tools for analysis of energy use in supermarket systems," , Academic Conferences Publishing, 1st IIR International Conference on sustainability and the cold chain. Proc. Cambridge Conf., IIR/C. R, 2010.
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