Tianjin Jinbin water plant: drinking water plant model adopting advanced technologies
Tianjin Jinbin Water Plant is one of the biggest drinking water plants that SUEZ NWS has built by adopting the advanced technologies, with a daily treatment capacity of 500,000 m3. The project adopts our patented technologies, including DensaDeg®, Aquazur® V, and a combination of ozone and CabarzurTM GAC filter, to effectively remove the suspended solids, algae, organic matters, and other contaminants, thereby providing high-quality drinking water for residents of Tianjin and ensuring the safety of water supply.
Tianjin Jinbin Water Plant uses Luan River as the source of raw water, which is slightly polluted and characterized by the following:
Large temperature difference, ranging from 0 to 30 ℃ (0-1℃ lasting around 1 month in winter);
Medium turbidity, 20NTU-40NTU;
Algae floods in the summer, reaching 14x106 /l in average, and up to 40x106-60x10 6 /l in the peak season from July to September;
Heavily polluted by organic compounds, CODMn 3～5 mg O2/L;
In winter, the water source features low temperature and low turbidity. Except for some indicators exceeding the standards, the water quality generally meets up to the Class III according to Environmental Quality Standards for Surface Water.
Nevertheless, the treated water quality shall meet the Drinking Water Quality Standards(GB5749-2006) of China, and some indicators are even stricter than the standard.
To cope with the requirement of mainly removing suspended solids, algae and organic matters, SUEZ NWS adopted treatment technologies combining enhanced pretreatment and advanced treatment, and meanwhile recycling the backwash water of filter to improve the raw water utilization rate. The specific technologies adopted include:
DensaDeg® technology with years of technical accumulation
This kind of settling tank is fast, economical, flexible and easy to operate, and it can produce stable and high-quality water with a small amount of sludge.
Technological characteristics include:
High sedimentation efficiency, small land occupation, high ascending velocity up to 20~30m/h;
High discharged sludge concentration up to 30~200g/l, no need of sludge concentration systems, simplified operation and capital saving;
Stable and excellent water quality, due to its unique flocculation design and inclined pipe separation technology.
Stable operation, resistance to shock loading, immunity to changes of flow or pollutant load;
Low operation cost, saving 10~30% of the agents compared with the existing technology.
Because of its excellent performance, V-type filter has quickly become the mainstream of the filtration system since its inception, and has been the theoretical guidance for air-water backwashing and the reference standard for engineering design. SUEZ has an engineering case for tens of thousands of V-type filters around the world.
Advanced and reliable combination of ozone and Cabarzur™ GAC filter
The use of ozone-GAC combination technology can achieve:
Removing pesticide residues
Sterilization and inactivation of virus
Removing odor, stink and micro-pollutants
Removing organic/inorganic pollutants, and mutagenic, teratogenic and carcinogenic matters
Integrated treatment effect with chemical reaction, physical adsorption and bio-degradation
Prolonging the working cycle and service life of activated carbon
Adopting special filter head, filter head and accessories being up to the sanitary standards for drinking water;
Adopting special Monolithique® interated filter plate;
Air/water separated backwashing, avoiding loss of filter material, backwashing water consumption lower than 1% of water yield. Optimized backwashing procedure to prevent generation of mud balls;
In view of the characteristics of activated carbon, the special shape backwashing water tank was designed to minimize the loss of activated carbon discharged along with backwashing wastewater, the annual loss rate of activated carbon being no more than 2%;
Complete automation control.
Economical and rational water treatment technology to ensure water supply safety
At the beginning of the project design, we conducted full preparation work, and run pilot tests for water treatment processes; and according to the characteristics of the raw water quality and the requirement for finished water quality, guided by the principle of safe and reliable operation, convenient maintenance and low investment, we adopted the new advanced and proven water treatment technologies and processes in the design, to improve the technical level of the project, so that the water quality of the plant reaches or surpasses the national standard, thereby enhancing the water supply management level and the safety water supply capacity. The project features low investment, stable and reliable operation, high treatment efficiency, low consumption, excellent quality of finished water, and high automated management level, etc.
By adopting SUEZ NWS' advanced technologies of DensaDeg®, Aquazur® V, combination of ozone and CabarzurTM GAC filter, the water plant has been running stably for 8 years. As of Nov. 2017, it has provided quality drinking water up to 1.46 billion m3, with a daily capacity of 500,000 m3. If calculated as the average daily water consumption of urban residents at 100L per household, the plant can simultaneously meet the water demand of 10 million households, thus greatly relieving the quality drinking water demand by the growing population of Tianjin.