工程热物理学报
工程熱物理學報
공정열물이학보
JOURNAL OF ENGINEERING THERMOPHYSICS
2009年
9期
1589-1592
,共4页
刘小伟%徐明厚%姚洪%于敦喜%吕当振%张会兴
劉小偉%徐明厚%姚洪%于敦喜%呂噹振%張會興
류소위%서명후%요홍%우돈희%려당진%장회흥
燃煤%颗粒物%气化%赋存形态
燃煤%顆粒物%氣化%賦存形態
연매%과립물%기화%부존형태
coal combustion%particle matter%vaporization%occurrence
将原煤通过三步化学提取实验(水洗,NH_3OAc洗,HCl洗),然后通过浸溶实验(Impregnation Experiment),将煤中羧基(-COOH)中的H离子置换成Na离子.并将原煤、提取实验后煤和浸溶实验后的三种煤样在沉降炉中热解和燃烧,研究煤中钠的有机/无机赋存形态对其气化特征和亚微米颗粒物形成的影响.实验结果发现:提取实验后的煤样,Na元素大部分以硅酸盐形式存在,两种煤在沉降炉中的热解结果表明以硅酸盐形式存在于煤中的钠元素很难气化.浸溶实验后的煤样中,Na元素大部分以羧酸(COO-Na)的形式存在,两种煤在沉降炉中的热解实验结果表明以有机结合态存在于煤中的钠元素非常易气化.Na元素赋存形态对其燃烧过程中气化有重要影响,最终表现在亚微米颗粒物中的含量上.
將原煤通過三步化學提取實驗(水洗,NH_3OAc洗,HCl洗),然後通過浸溶實驗(Impregnation Experiment),將煤中羧基(-COOH)中的H離子置換成Na離子.併將原煤、提取實驗後煤和浸溶實驗後的三種煤樣在沉降爐中熱解和燃燒,研究煤中鈉的有機/無機賦存形態對其氣化特徵和亞微米顆粒物形成的影響.實驗結果髮現:提取實驗後的煤樣,Na元素大部分以硅痠鹽形式存在,兩種煤在沉降爐中的熱解結果錶明以硅痠鹽形式存在于煤中的鈉元素很難氣化.浸溶實驗後的煤樣中,Na元素大部分以羧痠(COO-Na)的形式存在,兩種煤在沉降爐中的熱解實驗結果錶明以有機結閤態存在于煤中的鈉元素非常易氣化.Na元素賦存形態對其燃燒過程中氣化有重要影響,最終錶現在亞微米顆粒物中的含量上.
장원매통과삼보화학제취실험(수세,NH_3OAc세,HCl세),연후통과침용실험(Impregnation Experiment),장매중최기(-COOH)중적H리자치환성Na리자.병장원매、제취실험후매화침용실험후적삼충매양재침강로중열해화연소,연구매중납적유궤/무궤부존형태대기기화특정화아미미과립물형성적영향.실험결과발현:제취실험후적매양,Na원소대부분이규산염형식존재,량충매재침강로중적열해결과표명이규산염형식존재우매중적납원소흔난기화.침용실험후적매양중,Na원소대부분이최산(COO-Na)적형식존재,량충매재침강로중적열해실험결과표명이유궤결합태존재우매중적납원소비상역기화.Na원소부존형태대기연소과정중기화유중요영향,최종표현재아미미과립물중적함량상.
Chemical fractionation WaS used to selectively extract elements,from the raw coal based on solubility(water,ammonium acetate and hydrochloric acid),and reflects their association in the coal.The residue was an H-form coal sample.Then an impregnation experiment of H-form coal used to change Na~+ cations through ion-exchange process in coal matrix was carried out.The residue was a Na-form coal sample.Finally,the raw coal,H-form coal and Na-form coal samples were pyrolyzed and combusted in the drop tube furnace.The experimental results indicate that,in the H-form coal,the presence of element Na was mostly associated with inorganic silicate mineral species and this form of Na was difficult to be vapored during coal pyrolysis and combustion.In the Na-form coal,the Dresence of element Na was mostly associated with organic carbon matrix and this form of Na was easy to be vapored during coal pyrolysis and combustion.The submicron ash particles were formed with the vaporization and condensation.Hence,the occurrence mode of Na in coal was greatly influenced submicron ash particle formation.
