电子测量与仪器学报
電子測量與儀器學報
전자측량여의기학보
JOURNAL OF ELECTRONIC MEASUREMENT AND INSTRUMENT
2015年
5期
748-753
,共6页
徐从裕%胡雪卡%李星辰%徐海侠
徐從裕%鬍雪卡%李星辰%徐海俠
서종유%호설잡%리성신%서해협
PM10/PM2.5沉降%等离子体%超声波除尘%悬浮颗粒物浓度检测
PM10/PM2.5沉降%等離子體%超聲波除塵%懸浮顆粒物濃度檢測
PM10/PM2.5침강%등리자체%초성파제진%현부과립물농도검측
settlement of PM10/PM2.5%plasma%ultrasonic dust-removal%suspended particulate matter concentration detection
为了解决PM10/PM2.5沉降的问题,探讨了等离子体条件下进行超声波除尘的原理,提出了一种结合等离子体技术的超声波除尘方法。设计了一种基于光散射法的悬浮颗粒物浓度检测方法,配备等离子体发生器和超声波发生器的空气处理室,以及用于悬浮颗粒物浓度的采集、存储和数据分析的系统。作者按悬浮颗粒物自然沉降、超声波作用沉降、等离子体作用沉降及等离子体和超声波共同作用沉降等4种条件对悬浮颗粒物的沉降速率进行了对比实验,实验结果表明,采用等离子体和超声波复合式除尘方法可以有效地实现PM10/PM2.5的快速沉降。
為瞭解決PM10/PM2.5沉降的問題,探討瞭等離子體條件下進行超聲波除塵的原理,提齣瞭一種結閤等離子體技術的超聲波除塵方法。設計瞭一種基于光散射法的懸浮顆粒物濃度檢測方法,配備等離子體髮生器和超聲波髮生器的空氣處理室,以及用于懸浮顆粒物濃度的採集、存儲和數據分析的繫統。作者按懸浮顆粒物自然沉降、超聲波作用沉降、等離子體作用沉降及等離子體和超聲波共同作用沉降等4種條件對懸浮顆粒物的沉降速率進行瞭對比實驗,實驗結果錶明,採用等離子體和超聲波複閤式除塵方法可以有效地實現PM10/PM2.5的快速沉降。
위료해결PM10/PM2.5침강적문제,탐토료등리자체조건하진행초성파제진적원리,제출료일충결합등리자체기술적초성파제진방법。설계료일충기우광산사법적현부과립물농도검측방법,배비등리자체발생기화초성파발생기적공기처리실,이급용우현부과립물농도적채집、존저화수거분석적계통。작자안현부과립물자연침강、초성파작용침강、등리자체작용침강급등리자체화초성파공동작용침강등4충조건대현부과립물적침강속솔진행료대비실험,실험결과표명,채용등리자체화초성파복합식제진방법가이유효지실현PM10/PM2.5적쾌속침강。
In order to solve the problem of settlement of PM10/PM2.5,the working principle of ultrasonic dust-remov-al under the condition of plasma was discussed and An ultrasonic dust-removal method combined with plasma technol-ogy was proposed.In this paper, a method of suspended particulate matter concentration detection based on light scattering method was designed.An air treatment room with a plasma generator and ultrasonic generator was structured, and an experimental system used for collecting the concentration information of suspended particulate mat-ter as well as storing and analyzing experimental data was built.Four contrast experiments were done to compare the suspended particles settling rates of in natural state, with ultrasonic only, with plasma only and with ultrasonic and plasma both.The results show that the compound dust removal method both with ultrasonic and plasma can settle the PM10/PM2.5 rapidly and efficiently.