爆破器材
爆破器材
폭파기재
2014年
6期
16-21
,共6页
彭于怀%黄丽媛%曹卫国%郑俊杰%卑凤利%潘峰
彭于懷%黃麗媛%曹衛國%鄭俊傑%卑鳳利%潘峰
팽우부%황려원%조위국%정준걸%비봉리%반봉
石松子粉%粉尘爆炸%着火温度%爆炸压力%爆炸指数%抑爆
石鬆子粉%粉塵爆炸%著火溫度%爆炸壓力%爆炸指數%抑爆
석송자분%분진폭작%착화온도%폭작압력%폭작지수%억폭
lycopodium%dust explosion%ignition temperature%explosion pressure%explosion index%explosion sup-pression
为了研究粒径对石松子粉尘爆炸危险性的影响,采用Godbert-Greenwald ( G-G)炉和20 L球爆炸装置对石松子粉尘云进行了试验,分析了粒径对爆炸特性的影响,并探讨了SiO2和NH4 H2 PO4对石松子粉的抑爆效果。结果表明:粒径越小的粉尘着火温度越低,潜在危险性更大;粒径小于48μm的粉尘,在质量浓度为750 g/m3时达到最大爆炸指数22.61 MPa??m/s,其爆炸危险性为Ⅱ级,相比于粒径小于75μm的粉尘,爆炸危险性更高;添加SiO2和NH4 H2 PO4后,能够显著降低石松子粉的爆炸压力和爆炸指数;与SiO2相比,NH4 H2 PO4具有更好的抑爆效果。
為瞭研究粒徑對石鬆子粉塵爆炸危險性的影響,採用Godbert-Greenwald ( G-G)爐和20 L毬爆炸裝置對石鬆子粉塵雲進行瞭試驗,分析瞭粒徑對爆炸特性的影響,併探討瞭SiO2和NH4 H2 PO4對石鬆子粉的抑爆效果。結果錶明:粒徑越小的粉塵著火溫度越低,潛在危險性更大;粒徑小于48μm的粉塵,在質量濃度為750 g/m3時達到最大爆炸指數22.61 MPa??m/s,其爆炸危險性為Ⅱ級,相比于粒徑小于75μm的粉塵,爆炸危險性更高;添加SiO2和NH4 H2 PO4後,能夠顯著降低石鬆子粉的爆炸壓力和爆炸指數;與SiO2相比,NH4 H2 PO4具有更好的抑爆效果。
위료연구립경대석송자분진폭작위험성적영향,채용Godbert-Greenwald ( G-G)로화20 L구폭작장치대석송자분진운진행료시험,분석료립경대폭작특성적영향,병탐토료SiO2화NH4 H2 PO4대석송자분적억폭효과。결과표명:립경월소적분진착화온도월저,잠재위험성경대;립경소우48μm적분진,재질량농도위750 g/m3시체도최대폭작지수22.61 MPa??m/s,기폭작위험성위Ⅱ급,상비우립경소우75μm적분진,폭작위험성경고;첨가SiO2화NH4 H2 PO4후,능구현저강저석송자분적폭작압력화폭작지수;여SiO2상비,NH4 H2 PO4구유경호적억폭효과。
To investigate the influence of particle size on lycopodium dust explosion hazards, the dust explosions were experimentally studied using a Godbert-Greenwald ( G-G) furnace and a 20 L sphere explosion test unit, and the variation regularities of the explosion characteristic with the diameter of lycopodium were analyzed. Moreover,the effects of SiO2 and NH4 H2 PO4 on dust explosion suppression were also studied. The results indicate that the smaller the dust particle size, the lower the ignition temperature, and consequently the bigger thepotential hazards. Dust particle size in less than 48 μm at a mass concentration of 750 g/m3 results in a maximum explosion index of 22. 61 MPa??m/s, which ranks a gradeⅡexplo-sion in the risk classification exhibiting a higher grade of hazard in comparison the dust size less than 75 μm. Adding SiO2 and NH4 H2 PO4 can efficiently reduce lycopodium dust explosion pressure and explosion index, and the explosion sup-pression effects of NH4 H2 PO4 are better than that of SiO2 .