当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2015年
1期
98-100
,共3页
王建俊%王格格%李刚%陆江银
王建俊%王格格%李剛%陸江銀
왕건준%왕격격%리강%륙강은
污泥%资源化%生物炭
汙泥%資源化%生物炭
오니%자원화%생물탄
Sludge%Recycling%Biochar
概述了污泥的土地、建材、能源化利用等方面讲述了污泥的资源化利用,缓解了污泥带来的污染问题,避免了其所带来的危害。针对乌鲁木齐水业集团污水处理公司污泥制生物炭进行了初试,得到生物炭的比表面积为82 m2/g,拟后期对其工艺条件进一步优化。
概述瞭汙泥的土地、建材、能源化利用等方麵講述瞭汙泥的資源化利用,緩解瞭汙泥帶來的汙染問題,避免瞭其所帶來的危害。針對烏魯木齊水業集糰汙水處理公司汙泥製生物炭進行瞭初試,得到生物炭的比錶麵積為82 m2/g,擬後期對其工藝條件進一步優化。
개술료오니적토지、건재、능원화이용등방면강술료오니적자원화이용,완해료오니대래적오염문제,피면료기소대래적위해。침대오로목제수업집단오수처리공사오니제생물탄진행료초시,득도생물탄적비표면적위82 m2/g,의후기대기공예조건진일보우화。
Many potential ways for sludge recycling were outlined. These methods can alleviate the pollution caused by the sludge. Preliminary research on preparing biochar from the sludge of the sewage treatment plant of Urumqi Water Group was carried out. The specific surface area of prepared biochar could reach to 82 m2/g. The process conditions should be further optimized.
