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Status, Trend and Strategy on Municipal Wastewater Management in China
Wang Baozhen,Wang Lin,Liu Shuo,Wang Li,Wang Zheng 한국습지학회 2007 한국습지학회지 Vol.9 No.1
The rapid development of economy in China at the expense of consuming huge amount of energy and resources, water resource in particular, which has resulted in the production and discharge of increasing amount of wastewater to the water environment. In order to effectively control the increasing water pollution trend, the State Council has stipulated that all the cities with population over 500,000 should reach wastewater treatment rate of 60% by 2005, and all the cities should reach the rate of 60% by 2010, of which Capital Beijing and all the province capital cities and important tourism cities should reach 70% then. By the end of 2005, of the 661 cities in China, 393 have built and operated municipal wastewater treatments with a total number of 790 sets, total treatment capacity of 80.91×106 m3/d and total treatment rate of > 48%. Other 73 cities have started the construction of municipal wastewater treatment plants, and other 168 cities have started to prepare, planning and design of wastewater treatment plants. Most of municipal wastewater treatment plants in big cities in China operate normally and perform well with good quality of effluent in terms of wastewater treatment train, but the sewage sludge treatment is usually poor with big problems. It has been found that the small scale WWTPs using activated sludge process in the towns are usually operated and maintained abnormally because of lack of fund, skilled operators and energy. It is therefore suggested that the small scale MWWTPs in small cities and towns adopt appropriate technologies, of which the most available ones are multi-stage ponds, constructed wetlands and the combination of them for further purification and reuse of treated wastewater.
Design and Operational Performance of a Full Scale MWWTP with EHYBFAS Process
Wang Baozhen,Jin Wenbiao,Wang Shume,Cao Xiangdong,MA Zhiguang 대전대학교 환경문제연구소 2007 환경문제연구소 논문집 Vol.11 No.-
To improve water quality of Buji Stream and Shenzhen River, the Bujihe Wastewater Treatment Plant has been reconstructed from the original coagulkation-flocculation sedimentation system into the enhanced hybrid submerged biofilm-activated sludge (EHYBFAS)system developed by the authors. The main design parameters of the EHYBFAS system, process characteristics, operational performance, techno-economic index, and experience in design, construction and operation are described,which set up an example of the municipal wastewater treatment plants using the novel process of EHYBFAS, which has lots of advantages, such as stable and high operational performance with the final effluent quality well meeting 1A-1B standard of GB 18918-2002( Chinese national standard for pollutants of effluent from the MWWTPs), much less footprint of 1ha/(100×103m3/d)) vs 4-5ha/(100×103m3/d), much lower capital and operation costs of 700-800 Yuan(RMB)/(m3/d) and 0.5 Yuan(RMB)/m3 vs 1200-1500 Yuan/(m3/d)and 1.0-1.2 Yuan/m3 and much less sludge production of 0.3g dry solid/g removed BOD5 vs 0.7 g dry solid/removed BOD5 respectively for the MWWTP with AS process.
Design and Operational Performance of a Full Scale MWWTP with EHYBFAS Process
Wang Baozhen,Jin Wenbiao,Wang Shume,Cao Xiangdong,MA Zhiguang 대전대학교 환경문제연구소 2007 환경문제연구소 논문집 Vol.11 No.-
To improve water quality of Buji Stream and Shenzhen River, the Bujihe Wastewater Treatment Plant has been reconstructed from the original coagulkation-flocculation sedimentation system into the enhanced hybrid submerged biofilm-activated sludge (EHYBFAS)system developed by the authors. The main design parameters of the EHYBFAS system, process characteristics, operational performance, techno-economic index, and experience in design, construction and operation are described,which set up an example of the municipal wastewater treatment plants using the novel process of EHYBFAS, which has lots of advantages, such as stable and high operational performance with the final effluent quality well meeting 1A-1B standard of GB 18918-2002( Chinese national standard each one capable of treating 1.0×10<sup>4</sup> for pollutants of effluent from the MWWTPs), much less footprint of 1ha/(100×103㎥/d)) vs 4-5ha/(100×103㎥/d), much lower capital and operation costs of 700-800 Yuan(RMB)/(㎥/d) and 0.5 Yuan(RMB)/㎥ vs 1200-1500 Yuan/(㎥/d)and 1.0-1.2 Yuan/㎥ and much less sludge production of 0.3g dry solid/g removed BOD<sub>5</sub> vs 0.7 g dry solid/removed BOD5 respectively for the MWWTP with AS process.
Genome Shuffling of Lactobacillus brevis for Enhanced Production of Thymidine Phosphorylase
Hongmei Li,Fang Xue,Weijie Wang,Baozhen Chen 한국생물공학회 2015 Biotechnology and Bioprocess Engineering Vol.20 No.2
Thymidine phosphorylase (TPase) plays a vital role in the biosynthesis of nucleosides and their analogs which have tremendous potential in antiviral and anticancer therapies. In this study, genome shuffling was applied to develop new strains of Lactobacillus brevis with an enhanced production of TPase. The parent organisms were mutated using ultraviolet (UV) irradiation and were shuffled by recursive pool-wise protoplast fusion. The parent protoplasts of each cycle were inactivated by UV irritation for 50 min or by heating at 60°C for 60 min. A rapid and efficient pre-screening method for determining L. brevis fusants with increased TPase production was established by adding appropriate concentrations of substrate thymidine and potassium phosphate to the culture broth based on significant differences in the absorption spectra of substrate thymidine and its product, thymine, in alkaline solution at 290 nm. Strains F3-19 and F3-36 showed high TPase activity and favorable hereditary stability and were screened out through three rounds of recursive protoplast fusion. The increase in the TPase activity of F3-19 and F3-36 was 252.6 and 260.5%, respectively, in comparison with the wild type.