高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2010年
2期
450-455
,共6页
陈志刚%王少雷%白敏菂%王永伟%冷宏
陳誌剛%王少雷%白敏菂%王永偉%冷宏
진지강%왕소뢰%백민적%왕영위%랭굉
微细粉尘%烟道%粒子动量%荷电凝并%离子密度%离子源
微細粉塵%煙道%粒子動量%荷電凝併%離子密度%離子源
미세분진%연도%입자동량%하전응병%리자밀도%리자원
submicron dust%flue%particle momentum%charging and coagulation%ion density%ion source
目前电除尘器存在着微小颗粒粉尘捕集效率低、本体体积庞大和能耗高等问题.为了解决这一问题,基于烟道中粒子动量高、放电通道中离子输运特性有很大提高的特点,将离子源、荷电凝并装置设置于电除尘器前烟道中.实验结果表明气体粒子动量为9.82×10~(-22) g·cm/s,离子源中的电场强度为7 kV/cm,电晕极线间距为25mm,异极间距为10 mm,离子密度可达到1.97×10~9cm~(-3),比现有电除尘器的离子密度高出2~3个数量级,进而可省去一个相当电除尘器的除尘室大小的荷电设备.实验结果表明可以实现在不增加电除尘器室数、不改变原有运行方式和运行参数条件下,利用烟道中的气体粒子动量高的特点,解决现有电除尘器预荷电离子密度过低问题,从而有利于微细粉尘的荷电凝并,增大其捕集效率.
目前電除塵器存在著微小顆粒粉塵捕集效率低、本體體積龐大和能耗高等問題.為瞭解決這一問題,基于煙道中粒子動量高、放電通道中離子輸運特性有很大提高的特點,將離子源、荷電凝併裝置設置于電除塵器前煙道中.實驗結果錶明氣體粒子動量為9.82×10~(-22) g·cm/s,離子源中的電場彊度為7 kV/cm,電暈極線間距為25mm,異極間距為10 mm,離子密度可達到1.97×10~9cm~(-3),比現有電除塵器的離子密度高齣2~3箇數量級,進而可省去一箇相噹電除塵器的除塵室大小的荷電設備.實驗結果錶明可以實現在不增加電除塵器室數、不改變原有運行方式和運行參數條件下,利用煙道中的氣體粒子動量高的特點,解決現有電除塵器預荷電離子密度過低問題,從而有利于微細粉塵的荷電凝併,增大其捕集效率.
목전전제진기존재착미소과립분진포집효솔저、본체체적방대화능모고등문제.위료해결저일문제,기우연도중입자동량고、방전통도중리자수운특성유흔대제고적특점,장리자원、하전응병장치설치우전제진기전연도중.실험결과표명기체입자동량위9.82×10~(-22) g·cm/s,리자원중적전장강도위7 kV/cm,전훈겁선간거위25mm,이겁간거위10 mm,리자밀도가체도1.97×10~9cm~(-3),비현유전제진기적리자밀도고출2~3개수량급,진이가성거일개상당전제진기적제진실대소적하전설비.실험결과표명가이실현재불증가전제진기실수、불개변원유운행방식화운행삼수조건하,이용연도중적기체입자동량고적특점,해결현유전제진기예하전리자밀도과저문제,종이유리우미세분진적하전응병,증대기포집효솔.
Inefficiency of collecting submicron dust, great volume and much consuming energy and so on are the problems of ESP in being.In the paper the ion source and the charging and coagulation equipment were set in the flue, with high ion transportation rate for high particle momentum, in the conditions of particle momentum of 9.82×10~(-22)g·cm/s,electrostatic field intensity of 7 kV/cm,the gap spacing between two powered eldectrodes of 25 mm and the gap spacing between powered electrodes and its adjacent grounded electrode of 10mm, the ion density was 1.97×10~(-9) cm~(-3) , which was two~three orders of magnitude higher than the ion density in being.Then we can save a charging system equal to a room of ESP.we need not increase the rooms of ESP, not change the running mat-ter and the parameter, but only make use of the high momentum of charging particles in the flue to solve the problem of much low ion density of ESP.
