化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
z1期
90-94
,共5页
油页岩%差热%能耗%热重分析%脱水
油頁巖%差熱%能耗%熱重分析%脫水
유혈암%차열%능모%열중분석%탈수
oil shale%differential scanning calorimetry%energy consumption%thermogravimetry analysis%dewatering
在氮气吹扫作用下利用TG-DSC联用方法对5种油页岩样品的收到基、空干基、干燥基和纯水进行实验,首先对其中一种油页岩样品采用不同升温速率进行热重实验分析,升温速率分别为3℃/min、10℃/min和20℃/min,得到单位质量水分析出所需要的能耗曲线,实验结果表明常态水析出所需能量基本保持不变,约为2321kJ/kg。收到基和空干基能量曲线中的不同阶段表征油页岩中不同水分析出过程。根据油页岩中水分的存在形式,可得三种升温速率下油页岩中外在水、内在水、表面水和吸附水析出所需平均能耗,与常态水的平均能耗比分别为1∶1.18∶1.95∶1.60∶1.97、1∶1.10∶1.84∶1.58∶1.90和1∶1.14∶1.88∶1.59∶1.93,表明升温速率几乎对脱水能耗没有影响或是说影响不大。进而对其他4种含水量接近的油页岩样品以3℃/min的升温速率进行相同热重分析,计算结果表明含水量接近的不同种类油页岩析水能耗也基本相同。
在氮氣吹掃作用下利用TG-DSC聯用方法對5種油頁巖樣品的收到基、空榦基、榦燥基和純水進行實驗,首先對其中一種油頁巖樣品採用不同升溫速率進行熱重實驗分析,升溫速率分彆為3℃/min、10℃/min和20℃/min,得到單位質量水分析齣所需要的能耗麯線,實驗結果錶明常態水析齣所需能量基本保持不變,約為2321kJ/kg。收到基和空榦基能量麯線中的不同階段錶徵油頁巖中不同水分析齣過程。根據油頁巖中水分的存在形式,可得三種升溫速率下油頁巖中外在水、內在水、錶麵水和吸附水析齣所需平均能耗,與常態水的平均能耗比分彆為1∶1.18∶1.95∶1.60∶1.97、1∶1.10∶1.84∶1.58∶1.90和1∶1.14∶1.88∶1.59∶1.93,錶明升溫速率幾乎對脫水能耗沒有影響或是說影響不大。進而對其他4種含水量接近的油頁巖樣品以3℃/min的升溫速率進行相同熱重分析,計算結果錶明含水量接近的不同種類油頁巖析水能耗也基本相同。
재담기취소작용하이용TG-DSC련용방법대5충유혈암양품적수도기、공간기、간조기화순수진행실험,수선대기중일충유혈암양품채용불동승온속솔진행열중실험분석,승온속솔분별위3℃/min、10℃/min화20℃/min,득도단위질량수분석출소수요적능모곡선,실험결과표명상태수석출소수능량기본보지불변,약위2321kJ/kg。수도기화공간기능량곡선중적불동계단표정유혈암중불동수분석출과정。근거유혈암중수분적존재형식,가득삼충승온속솔하유혈암중외재수、내재수、표면수화흡부수석출소수평균능모,여상태수적평균능모비분별위1∶1.18∶1.95∶1.60∶1.97、1∶1.10∶1.84∶1.58∶1.90화1∶1.14∶1.88∶1.59∶1.93,표명승온속솔궤호대탈수능모몰유영향혹시설영향불대。진이대기타4충함수량접근적유혈암양품이3℃/min적승온속솔진행상동열중분석,계산결과표명함수량접근적불동충류유혈암석수능모야기본상동。
Thermogravimetry analysis (TG)coupled with differential scanning calorimetry (DSC) was applied,in the nitrogen background,to analyse dry basis,air dried basis and as-received basis of five kinds of oil shale as well as purified water.First of all,one of the oil shale samples was used in thermogravimetry analysis with different heating rate,the heating rate of 3℃/min, 10℃/min and 20℃/min, curves were plotted to illustrate the relationship between energy consumption for per unit mass of water evaporation and temperatures.Results show that the energy taken in evaporation process for normal state water remains constant, which is about 2321kJ/kg.The different stages of curves of air dried basis and as-received basis represent the evaporation processes of different moisture in oil shale.According to the mechanism of moisture in oil shale, we get the average energy consumption of the external water, internal water, surface water and absorbed water under three different kinds of heat rate.Compared with normal state water,the ratios are 1 to 1.18 to 1.95 to 1.60 to1.97、1 to 1.1 to1.84 to 1.58 to 1.90、1 to 1.14 to 1.88 to 1.59 to 1.93.It was proven that heating rate almost has no effect on energy consumption of dehydration.Thermogravimetry analysis was applied in the other four kinds of samples with the rate of 3℃/min, the calculation results show that the average energy consumption of different kinds of oil shale is basically the same.
