摘要
采用生物淋滤-聚合氯化铝(PAC)与聚丙烯酰胺(PAM)联合使用工艺对城市污泥进行了调理研究.结果表明,在固定单质硫投量为3 g.L-1的条件下,投加亚铁离子能明显加快污泥生物淋滤速率;FeSO4.7H2O投量为8 g.L-1时,污泥pH降至2约需1.5 d.生物淋滤显著改善了污泥的脱水性能,生物淋滤后使污泥比阻从6.45×1010 s2.g-1降到1.45×1010 s2.g-1,降低了77.52%,但污泥仍属于难脱水污泥.回调淋滤污泥pH至6,投加PAC及PAM对淋滤污泥进行强化调理.结果表明,单独使用PAC与PAM的最佳投量分别为200 mg.L-1和50 mg.L-1;联合使用PAC与PAM时,PAC与PAM的最佳投量分别为100mg.L-1和25 mg.L-1,污泥比阻和滤饼含水率分别为2.02×108 s2.g-1和74.81%,污泥属于易脱水污泥.与单独使用PAC与PAM相比,PAC与PAM联合使用调理污泥费用低、处理效果好.
Bioleaching-dual polyaluminum chloride(PAC) and polyacrylamide(PAM) addition was used to condition sewage sludge.The results showed that FeSO4.7H2 O addition improved the bioleaching rate obviously with a fixed sulfur power dosage of 3 g.L-1;when the FeSO4.7H2 O dosage was 8 g.L-1,the bioleaching lasted 1.5 d to decrease the sludge pH below 2.Bioleaching improved the sludge dewaterability significantly with a specific resistance to filtration(SRF) reduction of 77.52% from 6.45 × 1010 s2.g-1 to 1.45 × 1010 s2.g-1,but the bioleached sludge was still difficult to be dewatered.After adjusting the bioleached sludge pH to 6,PAC and PAM were used to enhance conditioning of the bioleached sludge.The results indicated that the optimal dosage was 200 mg.L-1 for PAC or 50 mg.L-1 for PAM when single chemical was used.When PAC and PAM were dually used,the optimal dosages of PAC and PAM were 100 mg.L-1 and 25 mg.L-1,respectively;SRF and moisture of sludge cake reduced to 2.02 × 108 s2.g-1 and 74.81%,respectively,showing good dewaterability of the treated sludge.Compared with the single use of PAC and PAM,the dual use of PAC and PAM showed the advantages of lower cost and better conditioning effect.
出处
《环境科学》
EI
CAS
CSCD
北大核心
2010年第9期2124-2128,共5页
Environmental Science
基金
国家水体污染控制与治理科技重大专项(2009ZX07212-001-02)
北京林业大学青年科技启动基金项目(BLX2108022)
关键词
城市污泥
生物淋滤
PAC
PAM
脱水性能
sewage sludge
bioleaching
polyaluminum chloride(PAC)
polyacrylamide(PAM)
dewaterability