Full-scale experiment to evaluate the combustion hazard of refrigerants with low global-warming potential in a conceivable accident scenario-Reference-Cited by-同舟云学术

Full-scale experiment to evaluate the combustion hazard of refrigerants with low global-warming potential in a conceivable accident scenario

Published:2017-10 Issue: Volume:82 Page:461-469
ISSN:0140-7007
Container-title:International Journal of Refrigeration
language:en
Short-container-title:International Journal of Refrigeration

Author:

Imamura Tomohiko^ORCID,Yoshida Yasutaka,Ota Yoshinari,Naito Koji,Sugawa Osami

Publisher

Elsevier BV

Subject

Mechanical Engineering,Building and Construction

Reference17 articles.

1. Physical hazard evaluation for using air conditioning system having low-flammable refrigerants with the fossil-fuel heating system at the same time;Imamura;Trans. Jpn. Soc. Refrigeration Air Cond. Eng,2012

2. Evaluation on ignition hazard of leaked A2L refrigerants by commercial-use electronic piezo lighter;Imamura;J. Jpn. Soc. Saf. Eng,2013

3. Ignition hazard evaluation on A2L refrigerants in situations of service and maintenance;Imamura;J. Loss Prev. Process Ind,2015

4. Experimental evaluation of the possibility of ignition and flame propagation in accumulated difluoromethane (R32) from a kerosene cigarette lighter;Imamura;J. Loss Prev. Process Ind,2016

5. ISO817-Refrigerant: Designation and Safety Classification of Refrigerants ISO, Geneva;International Organization for Standardization,2012

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1. Evaluating the Ignition Hazard of Alternative Refrigerants for Variable Refrigerant Flow Systems;Variable Refrigerant Flow Systems;2023

2. Flammability inhibition effect assessment with mildly flammable refrigerant and inert gases on difluoromethane;International Journal of Refrigeration;2022-12

3. Flammable refrigerant leakage hazards control for split-type household air conditioners;International Journal of Refrigeration;2022-12

4. R290 leakage hazards assessment of a 1 HP split-type household air conditioner by concentration detection and ignition experiment;International Journal of Refrigeration;2022-07

5. Burning Velocity Inhibition Effect Assessment with Mildly Flammable Refrigerant and Inert Gases on Difluoromethane;SSRN Electronic Journal;2021