化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
9期
3456-3461
,共6页
王慧勇%冯泽%陈翔%高丽萍
王慧勇%馮澤%陳翔%高麗萍
왕혜용%풍택%진상%고려평
微波%低碱%协同%剩余污泥%预处理
微波%低堿%協同%剩餘汙泥%預處理
미파%저감%협동%잉여오니%예처리
microwave%low-alkali%combination%waste activated sludge%pretreatment
采用微波协同低碱技术预处理剩余污泥[NaOH投加量≤15mg/(gTS)].通过对比加碱前后污泥溶液溶解性化学需氧量(SCOD)、溶解性蛋白质、溶解性总糖、氨氮、pH值、电导率等随微波处理时间的变化,考察该技术对污泥破解以及污泥特性的影响.结果表明,微波协同低碱对污泥的破解效果明显优于单独微波和单独碱处理.二者的协同作用进一步提高了污泥溶胞率,增大了有机物的溶出量,尤其以蛋白质的溶出更为显著,而且较高的微波功率与碱的协同效果更好.碱的加入使预处理后的污泥pH值维持在9.1~9.5的偏碱性条件,同时减少了污泥电导率的减小量.而污泥溶液氨氮浓度在预处理前后变化不大.因此,微波协同低碱预处理剩余污泥将有助于改善后续微生物燃料电池(MFC)的污泥降解和产电性能.
採用微波協同低堿技術預處理剩餘汙泥[NaOH投加量≤15mg/(gTS)].通過對比加堿前後汙泥溶液溶解性化學需氧量(SCOD)、溶解性蛋白質、溶解性總糖、氨氮、pH值、電導率等隨微波處理時間的變化,攷察該技術對汙泥破解以及汙泥特性的影響.結果錶明,微波協同低堿對汙泥的破解效果明顯優于單獨微波和單獨堿處理.二者的協同作用進一步提高瞭汙泥溶胞率,增大瞭有機物的溶齣量,尤其以蛋白質的溶齣更為顯著,而且較高的微波功率與堿的協同效果更好.堿的加入使預處理後的汙泥pH值維持在9.1~9.5的偏堿性條件,同時減少瞭汙泥電導率的減小量.而汙泥溶液氨氮濃度在預處理前後變化不大.因此,微波協同低堿預處理剩餘汙泥將有助于改善後續微生物燃料電池(MFC)的汙泥降解和產電性能.
채용미파협동저감기술예처리잉여오니[NaOH투가량≤15mg/(gTS)].통과대비가감전후오니용액용해성화학수양량(SCOD)、용해성단백질、용해성총당、안담、pH치、전도솔등수미파처리시간적변화,고찰해기술대오니파해이급오니특성적영향.결과표명,미파협동저감대오니적파해효과명현우우단독미파화단독감처리.이자적협동작용진일보제고료오니용포솔,증대료유궤물적용출량,우기이단백질적용출경위현저,이차교고적미파공솔여감적협동효과경호.감적가입사예처리후적오니pH치유지재9.1~9.5적편감성조건,동시감소료오니전도솔적감소량.이오니용액안담농도재예처리전후변화불대.인차,미파협동저감예처리잉여오니장유조우개선후속미생물연료전지(MFC)적오니강해화산전성능.
Microwave and low-alkali were integrated for waste activated sludge pretreatment with NaOH dosage≤15mg/(gTS). The influences of this technology on the sludge disintegration and sludge characteristics were investigated by comparing the variation of SCOD,soluble protein,soluble total sugar,ammonia nitrogen,pH value and conductivity with increasing microwave time whether adding alkali. The results showed that the combined microwave and low-alkali pretreatment was more effective than microwave or alkali pretreatment alone in cracking sludge. The technology can further improve the ratio of cell lysis and increase the amount of soluble organic matter. The protein dissolution was especially more remarkable. Higher microwave power was beneficial to enhance the synergistic effect. The addition of alkali maintained the pretreated sludge pH value at 9.1-9.5,which helped reduce the decrease of sludge conductivity. However,sludge pretreatment did not change much of the ammonia nitrogen concentration. Therefore,the combined microwave and low-alkali pretreatment would help to improve sludge degradation and electricity production in MFC .
