Study on the Effect of Different Factors over the Explosion Range for New Alternative Refrigerants HFC-32

Wang Yongzhen; Jin Jing; Xiong Zhibo; Meng Lei; Guo Mingshan

doi:10.3969/j.issn.0253-4339.2015.06.006

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Study on the Effect of Different Factors over the Explosion Range for New Alternative Refrigerants HFC-32

更新时间：2024-07-18

- Study on the Effect of Different Factors over the Explosion Range for New Alternative Refrigerants HFC-32
- Journal of Refrigeration Vol. 36, Issue 6, (2015)
- 作者机构：
  
  1. 上海理工大学能源与动力工程学院
  2. 上海理工大学协同创新研究院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2015.06.006
  CLC：
- Published：2015
- 稿件说明：
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Wang Yongzhen, Jin Jing, Xiong Zhibo, et al. Study on the Effect of Different Factors over the Explosion Range for New Alternative Refrigerants HFC-32[J]. Journal of refrigeration, 2015, 36(6).
DOI：

Wang Yongzhen, Jin Jing, Xiong Zhibo, et al. Study on the Effect of Different Factors over the Explosion Range for New Alternative Refrigerants HFC-32[J]. Journal of refrigeration, 2015, 36(6). DOI： 10.3969/j.issn.0253-4339.2015.06.006.

摘要

利用可燃性气体爆炸极限测定实验台考察了温度、相对湿度、阻燃剂对HFC-32爆炸极限的影响。研究结果表明：在﹣5~55 ℃区间之内，升高温度会促使HFC-32爆炸上限逐渐增大，其爆炸下限逐渐减少，拓宽了HFC-32的爆炸区间；当相对湿度低于60%时，增大相对湿度会导致HFC-32爆炸下限稍微增大，其爆炸上限稍微减少，当相对湿度由60%逐渐增至87%时，其爆炸上限急剧减少，直至爆炸极限范围消失；添加CF3I或HFC-134a阻燃剂可促使HFC-32爆炸极限范围减少，但CF3I的阻燃效果优于HFC-134a，当CF3I/HFC-32体积比由0增至1或HFC-134a/HFC-32体积比由0增至10时，两种混合气的爆炸范围最终都减少为0。这为抑制HFC-32燃烧提供了重要的理论依据。

Abstract

The influences of temperature

relative humidity and fire-retardant on the explosion range of new alternative refrigerants HFC-32 were investigated through an experiment bed for the explosion range of flammable gases. The results indicated that the enhancement of temperature can improve the upper explosion range of HFC-32 and decrease its lower explosion range

then enlarges the explosion range of HFC-32 under the temperature of﹣5~55 ℃. The improvement of relative humidity makes the lower explosion range of HFC-32 slightly increase

and the upper explosion range slightly decrease at the relative humidity range of less than 60% for HFC-32. When the relative humidity increases from 60% to 87%

the upper explosion range of HFC-32 decreases rapidly to make the explosive range of HFC-32 disappear. The addition of CF3I or HFC-134a fire-retardant can lead the explosion range of HFC-32 to reduce

and the effect of CF3I on the inflaming retarding of HFC-32 is superior to HFC-134a. When the volume ratio of CF3I/HFC-32 increases from 0 to 1 or HFC-134a/HFC-32 increases from 0 to 10

their explosion ranges disappear. This provides an important theoretical basis for inhibiting the combustion of HFC-32.

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