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Effects of Nutrients on Biofouling Formation and Preponderant Bacteria Diversity in Recirculating Cooling Water System 被引量:2
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作者 Ma Tao Liu Fang +1 位作者 Zhang Guizhi Zhao Chaocheng (College of Chemistry and Chemical Engineering,China University of Petroleum,Qingdao 266555) 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2010年第4期57-62,共6页
A series of orthogonal array experiments were conducted using carbon source, ammonia nitrogen and total phosphorus (TP) as major influencing factors to investigate the effects of nutrients on biofouling formation an... A series of orthogonal array experiments were conducted using carbon source, ammonia nitrogen and total phosphorus (TP) as major influencing factors to investigate the effects of nutrients on biofouling formation and preponderant bacteria diversity in the recirculatiug cooling water system. Carbon source was demonstrated to be the most significant determinant affecting the biofouling formation. A minimum biofouling outcome was obtained when BOD2, NHa+-N and TP were 25, 10, and 1 mg/L, respectively. Then the preponderant bacteria strains in biofouling mass under two typical culture conditions (negative and favorable) were identified applying both traditional biochemical methods and further molecular biology technology with phylogenetic affiliation analysis, which indicated that Enterobacteriaceae Enterobacter, Micrococcaceae Staphylococcus, Bacillaceae Bacillus, Enterobacteriaceae Proteus, Neisseriaceae Neisseria and Pseudomonadaceae Pseudomonas were dominant under negative condition, while Enterobacteriaceae Klebsiella, Enterobacteriaceae Enterobacter and Microbacterium - under favorable one. 展开更多
关键词 recirculating cooling water BIOFOULING numerical analysis polymerase chain reaction
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Hydroxyl carboxylate based non-phosphorus corrosion inhibition process for reclaimed water pipeline and downstream recirculating cooling water system 被引量:5
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作者 Jun Wang Dong Wang Deyin Hou 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2016年第1期13-21,共9页
A combined process was developed to inhibit the corrosion both in the pipeline of reclaimed water supplies(PRWS) and in downstream recirculating cooling water systems(RCWS)using the reclaimed water as makeup. Hydr... A combined process was developed to inhibit the corrosion both in the pipeline of reclaimed water supplies(PRWS) and in downstream recirculating cooling water systems(RCWS)using the reclaimed water as makeup. Hydroxyl carboxylate-based corrosion inhibitors(e.g.,gluconate, citrate, tartrate) and zinc sulfate heptahydrate, which provided Zn^2+ as a synergistic corrosion inhibition additive, were added prior to the PRWS when the phosphate(which could be utilized as a corrosion inhibitor) content in the reclaimed water was below 1.7 mg/L, and no additional corrosion inhibitors were required for the downstream RCWS.Satisfactory corrosion inhibition was achieved even if the RCWS was operated under the condition of high numbers of concentration cycles. The corrosion inhibition requirement was also met by the appropriate combination of PO4^3- and Zn^2+ when the phosphate content in the reclaimed water was more than 1.7 mg/L. The process integrated not only water reclamation and reuse, and the operation of a highly concentrated RCWS, but also the comprehensive utilization of phosphate in reclaimed water and the application of non-phosphorus corrosion inhibitors. The proposed process reduced the operating cost of the PRWS and the RCWS, and lowered the environmental hazard caused by the excessive discharge of phosphate. Furthermore, larger amounts of water resources could be conserved as a result. 展开更多
关键词 Hydroxyl carboxylate Reclaimed water Pipeline Corrosion recirculating cooling water system Non-phosphorus
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