高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
4期
888-894
,共7页
伍家麒%孙水裕%李神勇%杨帆%王逸%陈港权%刘敬勇%钟胜
伍傢麒%孫水裕%李神勇%楊帆%王逸%陳港權%劉敬勇%鐘勝
오가기%손수유%리신용%양범%왕일%진항권%류경용%종성
废线路板环氧树脂%真空热解%金属氧化物%溴分布率
廢線路闆環氧樹脂%真空熱解%金屬氧化物%溴分佈率
폐선로판배양수지%진공열해%금속양화물%추분포솔
WPCB epoxy resin%vaccum pyrolysis%metal oxides%distribution of bromine
在500℃下,进行了废线路板环氧树脂粉末与Fe系、Ca系和Al系三类氧化物的真空共热解脱溴试验。通过离子色谱分析和氧弹燃烧法,研究了不同氧化物对固、液、气三相热解产物中有机溴和无机溴分布的影响。试验结果表明,Fe系和Ca系氧化物能显著降低热解液体中的溴含量,大部分的溴残留在固相中。其中以Fe3O4和CaCO3的脱溴效果最好,热解液体中的溴分布率从没有添加时的72.10%分别降到8.91%和7.69%,分别有78.74%和90.84%的溴以无机溴的形态残留在热解渣中,有机溴转化为无机溴的效率从没有添加时的46.42%分别提高到82.25%和92.13%。Al 系氧化物能明显增加热解液体中的水分含量,原料中的溴绝大部分转移到液相中,包括油相中的有机溴和水相中的无机溴。Fe系和Ca系氧化物的脱溴效果优于Al系氧化物。用GC/MS分析测定了油相中含溴化合物的种类和相对含量。
在500℃下,進行瞭廢線路闆環氧樹脂粉末與Fe繫、Ca繫和Al繫三類氧化物的真空共熱解脫溴試驗。通過離子色譜分析和氧彈燃燒法,研究瞭不同氧化物對固、液、氣三相熱解產物中有機溴和無機溴分佈的影響。試驗結果錶明,Fe繫和Ca繫氧化物能顯著降低熱解液體中的溴含量,大部分的溴殘留在固相中。其中以Fe3O4和CaCO3的脫溴效果最好,熱解液體中的溴分佈率從沒有添加時的72.10%分彆降到8.91%和7.69%,分彆有78.74%和90.84%的溴以無機溴的形態殘留在熱解渣中,有機溴轉化為無機溴的效率從沒有添加時的46.42%分彆提高到82.25%和92.13%。Al 繫氧化物能明顯增加熱解液體中的水分含量,原料中的溴絕大部分轉移到液相中,包括油相中的有機溴和水相中的無機溴。Fe繫和Ca繫氧化物的脫溴效果優于Al繫氧化物。用GC/MS分析測定瞭油相中含溴化閤物的種類和相對含量。
재500℃하,진행료폐선로판배양수지분말여Fe계、Ca계화Al계삼류양화물적진공공열해탈추시험。통과리자색보분석화양탄연소법,연구료불동양화물대고、액、기삼상열해산물중유궤추화무궤추분포적영향。시험결과표명,Fe계화Ca계양화물능현저강저열해액체중적추함량,대부분적추잔류재고상중。기중이Fe3O4화CaCO3적탈추효과최호,열해액체중적추분포솔종몰유첨가시적72.10%분별강도8.91%화7.69%,분별유78.74%화90.84%적추이무궤추적형태잔류재열해사중,유궤추전화위무궤추적효솔종몰유첨가시적46.42%분별제고도82.25%화92.13%。Al 계양화물능명현증가열해액체중적수분함량,원료중적추절대부분전이도액상중,포괄유상중적유궤추화수상중적무궤추。Fe계화Ca계양화물적탈추효과우우Al계양화물。용GC/MS분석측정료유상중함추화합물적충류화상대함량。
Debromination tests of epoxy resin powders from waste printed circuit boards (WPCB) were carried out at 500℃ by adding three types of oxides ( Fe-based, Ca-based and Al-based). The effects of the oxide additives on to the distribution of organic and inorganic bromine in solid, liquid and gas phases of the pyrolysis products were studied by ion chromatography and oxygen bomb combustion methods. The results indicate that the Fe-based and Ca-based oxides can significantly reduce bromine content in the pyrolysis liquids, with most bromine distributed in the solid phase. Fe3O4 and CaCO3 display better debromination effect than other Fe and Ca oxides. The distribution of bromine in the pyrolysis oil reduces from 72.10%without any oxide to 8.91%and 7.69%with Fe3O4 and CaCO3. The efficiency of organic-inorganic bromine conversion increases from 46.42% to 82.25% and 92.13%, respectively. As a result, 78.74% and 90.84% of bromine exists in pyrolysis residues is inorganic bromine. Meanwhile, the Al-based oxides can obviously increase water content of the pyrolysis liquid. In addition, most bromine in the WPCB including organic bromine in the oil phase and inorganic bromine in the water phases is transferred into the pyrolysis liquid. The types and amount of bromine compounds in the oil phase were analyzed by GC/MS. In conclusion, Fe-based and Ca-based oxides are better for debromination applications comparing to Al-based oxides.