中国安全科学学报
中國安全科學學報
중국안전과학학보
CHINA SAFETY SCIENCE JOURNAL(CSSJ)
2001年
2期
31-36
,共6页
徐精彩%薛韩玲%文虎%李莉
徐精綵%薛韓玲%文虎%李莉
서정채%설한령%문호%리리
煤氧复合耗氧速率表面反应热放热强度
煤氧複閤耗氧速率錶麵反應熱放熱彊度
매양복합모양속솔표면반응열방열강도
Coal oxidation Rate of oxygen consumption Surface reactive heat Exothermic intensity
煤的氧化放热是引起煤自燃的主要原因。煤氧复合热效应与耗氧速率和表面反应热有关。通过分析得出,q(z,n,CO2,T,d50)=h(Z)*g(n)*f(CO2)*I(T)*Ψ(d50)。其中主要影响因素为煤结构、温度、氧浓度及粒度。根据威斯化学结构模型、本田化学结构模型及煤分子中包含的7种表面活性结构,推出煤自燃表面分子结构模型,并分析其表面活性结构的种类、数量、活泼性,它们随煤体不同而千差万别;表面活性结构随温度变化的氧化活泼性及反应过程不同,造成煤表面氧化反应热H不同。外在主要影响因素—煤的温度、氧浓度、粒度不同造成了耗氧速率VO2不同,使煤的放热强度不同。对此,通过XK型煤自然发火实验台及XKS程序升温实验台进行了实验分析。
煤的氧化放熱是引起煤自燃的主要原因。煤氧複閤熱效應與耗氧速率和錶麵反應熱有關。通過分析得齣,q(z,n,CO2,T,d50)=h(Z)*g(n)*f(CO2)*I(T)*Ψ(d50)。其中主要影響因素為煤結構、溫度、氧濃度及粒度。根據威斯化學結構模型、本田化學結構模型及煤分子中包含的7種錶麵活性結構,推齣煤自燃錶麵分子結構模型,併分析其錶麵活性結構的種類、數量、活潑性,它們隨煤體不同而韆差萬彆;錶麵活性結構隨溫度變化的氧化活潑性及反應過程不同,造成煤錶麵氧化反應熱H不同。外在主要影響因素—煤的溫度、氧濃度、粒度不同造成瞭耗氧速率VO2不同,使煤的放熱彊度不同。對此,通過XK型煤自然髮火實驗檯及XKS程序升溫實驗檯進行瞭實驗分析。
매적양화방열시인기매자연적주요원인。매양복합열효응여모양속솔화표면반응열유관。통과분석득출,q(z,n,CO2,T,d50)=h(Z)*g(n)*f(CO2)*I(T)*Ψ(d50)。기중주요영향인소위매결구、온도、양농도급립도。근거위사화학결구모형、본전화학결구모형급매분자중포함적7충표면활성결구,추출매자연표면분자결구모형,병분석기표면활성결구적충류、수량、활발성,타문수매체불동이천차만별;표면활성결구수온도변화적양화활발성급반응과정불동,조성매표면양화반응열H불동。외재주요영향인소—매적온도、양농도、립도불동조성료모양속솔VO2불동,사매적방열강도불동。대차,통과XK형매자연발화실험태급XKS정서승온실험태진행료실험분석。
Exothermic oxidation of coal is the main cause of spontaneous combustion. The combined thermal effect of coal and oxygen correlates with the rate of oxygen consumption and surface reactive heat. Through analysis it is obtained that q(z,n,CO2,T,d50)=h(Z)*g(n)*f(CO2)*I(T)*Ψ(d50).Among them, the structure of coal, environment temperature, oxygen consumption, and particulate distribution of coal are the main influential factors. According to Waish chemical structure model for coal spontaneous combustion, Bentain model, and the active surface structure, it is found that the spontaneous combustion of coal differs obviously with the kind, number and activity of the active surface structure of coal. Different oxidizing activity and process with different environment temperature produce different surface reactive heat. The external factors, namely the temperature of coal, oxygen concentration, and different particulate distribution, cause the different rate of oxygen consumption VO2 and different exothermic intensity. The results are tested by XK coal spontaneous combustion experiment set and XKS program temperature ascending experiment set.