Success Story
Municipal
Project: Build and Transfer Project of Dalad Banner Drinking Water Treatment Plant Construction for the City of Ordos in the Inner Mongolia Autonomous RegionCustomer: Ordos Yuande Water Co. Ltd.
Service: Project Investment, EPC, Transfer and Operation Services
Brief:
Tri-Tech provided construction of a drinking water treatment plant with a daily treatment capacity of 200,000 cubic meters for Ordos. The project was initiated by the Dongsheng District of Ordos for easing shortages in the water supply associated with the rapid economic development of Ordos City. The plant encompasses 150,000 square meters and provides a daily treatment capacity of 96,000 cubic meters in Phase One. Tri-Tech uses the traditional process of flocculation, sediment and conventional filtration for pre-treatment and ultra-filtration and nanofiltration technologies for advanced treatment. The source water will be groundwater. Tri-Tech expects the Phase One of the project to be operational for initial trials by the end of 2011. The Ordos plant is expected to be one of China's largest drinking water treatment plants of this kind, applying both ultra-filtration and nanofiltration technologies.
Tri-Tech signed contract for the expansion project (Phase 2) in the June, 2011. With the expansion, the daily treatment capacity will add 100,000 cubic meters and the total treatment capacity for the plant would be 200,000 cubic meters per day. After treatment, the quality of water will meet the new national standards for drinking water (GB5749-2006) promulgated in 2006.The project will be the biggest drinking water treatment plant which uses the technology of dual membrance (ultra-filtration and nanofiltration membrance) and with the technology the treatment capacity would be 148,000 cubic meters that is larger than that of Mery Sur Qise Plant which uses the same technology and has daily treatment capacity of 140,000 cubic meters.
Tri-Tech provided construction of a drinking water treatment plant with a daily treatment capacity of 200,000 cubic meters for Ordos. The project was initiated by the Dongsheng District of Ordos for easing shortages in the water supply associated with the rapid economic development of Ordos City. The plant encompasses 150,000 square meters and provides a daily treatment capacity of 96,000 cubic meters in Phase One. Tri-Tech uses the traditional process of flocculation, sediment and conventional filtration for pre-treatment and ultra-filtration and nanofiltration technologies for advanced treatment. The source water will be groundwater. Tri-Tech expects the Phase One of the project to be operational for initial trials by the end of 2011. The Ordos plant is expected to be one of China's largest drinking water treatment plants of this kind, applying both ultra-filtration and nanofiltration technologies.
Tri-Tech signed contract for the expansion project (Phase 2) in the June, 2011. With the expansion, the daily treatment capacity will add 100,000 cubic meters and the total treatment capacity for the plant would be 200,000 cubic meters per day. After treatment, the quality of water will meet the new national standards for drinking water (GB5749-2006) promulgated in 2006.The project will be the biggest drinking water treatment plant which uses the technology of dual membrance (ultra-filtration and nanofiltration membrance) and with the technology the treatment capacity would be 148,000 cubic meters that is larger than that of Mery Sur Qise Plant which uses the same technology and has daily treatment capacity of 140,000 cubic meters.
Project: Water Supply Computer Aided Dispatch SystemCustomer : Jinan Water Supply Group Co.
Service: System Design, Equipment Procurement, Equipment Installation, Software Development, Technical Training, System Maintenance
Brief:
The Jinan Water Supply Group supplies1,570,000 cubic meters of water a day to a population of 1.7 million in an area of 170 square kilometers. The system includes 47 water treatment plants, water head sites and pressure booster stations and a water supply main pipe that stretches over 1,300 km. The computer aided dispatch system includes a water supply monitoring and data acquisition system that remotely monitors pipelines, system pressure, flow rate, water level, water quality and power consumption of storage reservoirs to assure the most effective dispatch of water.
The system makes full use of the latest digital management, communications and industry control technologies. The computerized system controls the production process, pipeline, measurement, management and operation of Jinan’s water supply. It was the first water supply dispatching system established in line with the Guide of Water Supply Computer Aided Dispatch System Application issued by ministry of Construction.
The Jinan Water Supply Group supplies1,570,000 cubic meters of water a day to a population of 1.7 million in an area of 170 square kilometers. The system includes 47 water treatment plants, water head sites and pressure booster stations and a water supply main pipe that stretches over 1,300 km. The computer aided dispatch system includes a water supply monitoring and data acquisition system that remotely monitors pipelines, system pressure, flow rate, water level, water quality and power consumption of storage reservoirs to assure the most effective dispatch of water.
The system makes full use of the latest digital management, communications and industry control technologies. The computerized system controls the production process, pipeline, measurement, management and operation of Jinan’s water supply. It was the first water supply dispatching system established in line with the Guide of Water Supply Computer Aided Dispatch System Application issued by ministry of Construction.
Project: Equipment Procurement for Kuitun Wastewater Treatment Plant of Xinjiang Uyghur Autonomous Region – Xinjiang Environmental Improvement Project Phase 1Customer: Kuitun Wastewater Treatment Plant of Xinjiang, Two Plants
Service: Equipment Procurement
Brief:
As one of 11 China-government-approved Xinjiang Urban Environmental Comprehensive Improvement Projects funded by an Official Development Assistance (ODA) Loan under an agreement between China’s Ministry of Finance and Japan’s Bank for International Cooperation, this project covered upgrade work of a central wastewater treatment facility and construction of a companion wastewater treatment plant with a targeted daily capacity of 60,000 cubic meters. The Kuitun central wastewater treatment plant, which went into operation in 2002, has a daily capacity of 40,000 cubic meters. Reclaimed wastewater discharged from the treatment plant meets Class 2B standards as per the National Discharge Standard of Pollutants for Municipal Wastewater Treatment Plants.
The upgrade decreased pollution discharged from the plant allowing it to meet Class 1B standards. The new wastewater treatment plant to the east of the existing central wastewater treatment plant was designed to meet Kuitin’s increasing wastewater treatment requirements. It has a daily treatment capacity of 60,000 cubic meters. Tri-Tech uses its anoxic/aerobic biological nitrogen removal process to meet Class 1B standards.
As one of 11 China-government-approved Xinjiang Urban Environmental Comprehensive Improvement Projects funded by an Official Development Assistance (ODA) Loan under an agreement between China’s Ministry of Finance and Japan’s Bank for International Cooperation, this project covered upgrade work of a central wastewater treatment facility and construction of a companion wastewater treatment plant with a targeted daily capacity of 60,000 cubic meters. The Kuitun central wastewater treatment plant, which went into operation in 2002, has a daily capacity of 40,000 cubic meters. Reclaimed wastewater discharged from the treatment plant meets Class 2B standards as per the National Discharge Standard of Pollutants for Municipal Wastewater Treatment Plants.
The upgrade decreased pollution discharged from the plant allowing it to meet Class 1B standards. The new wastewater treatment plant to the east of the existing central wastewater treatment plant was designed to meet Kuitin’s increasing wastewater treatment requirements. It has a daily treatment capacity of 60,000 cubic meters. Tri-Tech uses its anoxic/aerobic biological nitrogen removal process to meet Class 1B standards.
Project: Tianjin Airport Economic Zone Wastewater Treatment Plant Expansion Project Equipment Procurement for Reused Water Quality Upgrade Project (Phase One) for Airport Economic Park of TianjinCustomers: The Tianjin Airport Economic Park Water Co. Ltd.
Services: Design, Equipment Procurement, Installation, Trial Operation and Training
Brief:
For the project, the expected daily treatment capacity will be 7,500 tons of recycled water that meets Class 1A standards as per the National Discharge Standard of Pollutants for Urban Wastewater Treatment Plants. The plan calls for production of no less than 5,000 tons of upgraded recycled water per day. The upgraded recycled water will be used as industrial process water for industrial plants in the Tianjin Airport Economic Park. The project will use an advanced treatment process composed of a submerged ultra filtration system and a reverse osmosis system. The upgraded recycled water will surpass the National Urban Wastewater Recycling water quality standards.
Through the implementation of project, use of water resources in industrial parks will be enhanced and the comprehensive use of functional industrial parks will be improved.
For the project, the expected daily treatment capacity will be 7,500 tons of recycled water that meets Class 1A standards as per the National Discharge Standard of Pollutants for Urban Wastewater Treatment Plants. The plan calls for production of no less than 5,000 tons of upgraded recycled water per day. The upgraded recycled water will be used as industrial process water for industrial plants in the Tianjin Airport Economic Park. The project will use an advanced treatment process composed of a submerged ultra filtration system and a reverse osmosis system. The upgraded recycled water will surpass the National Urban Wastewater Recycling water quality standards.
Through the implementation of project, use of water resources in industrial parks will be enhanced and the comprehensive use of functional industrial parks will be improved.
Project: SCADA System for Natural Gas High-Pressure Pipelines in WuhanCustomer: Wuhan Natural Gas High-Pressure Pipeline Co. - Wuhan Heating Group
Service: System Design, Equipment Procurement, Technical Service, Installation and Commissioning
Brief:
For the project, Tri-Tech will build SCADA systems for 280-kilometer high-pressure natural gas pipeline, DCS and ESD systems for LNG reserve base of Anshan. The systems will cover one master control center, two gate stations, six high-pressure regulatory stations, sixteen valve chambers, one metering station and one LNG reserve base. The natural gas trunk line at length of 240 kilometers with pipe diameter of 813 millimeters connects Anshan station and gate stations of Wulijie and Junshan. The capacity of LNG reserve base of Anshan is 20000 m³ and it enables adequate natural gas supply to the City of Wuhan for 10 days under natural gas tight condition. Unix and Windows platform will be used in design of the system to ensure stable and safe operation of the system, communication is mutual backup of optical fiber and 3G to ensure unblock of data link. The application of the system will optimize scheduling, ensure security of gas distribution and proper allocation of gas resource to reduce quantity difference between supply and marketing, which will eventually add economic benefits to Wuhan Natural Gas High-Pressure Pipeline Co.
For the project, Tri-Tech will build SCADA systems for 280-kilometer high-pressure natural gas pipeline, DCS and ESD systems for LNG reserve base of Anshan. The systems will cover one master control center, two gate stations, six high-pressure regulatory stations, sixteen valve chambers, one metering station and one LNG reserve base. The natural gas trunk line at length of 240 kilometers with pipe diameter of 813 millimeters connects Anshan station and gate stations of Wulijie and Junshan. The capacity of LNG reserve base of Anshan is 20000 m³ and it enables adequate natural gas supply to the City of Wuhan for 10 days under natural gas tight condition. Unix and Windows platform will be used in design of the system to ensure stable and safe operation of the system, communication is mutual backup of optical fiber and 3G to ensure unblock of data link. The application of the system will optimize scheduling, ensure security of gas distribution and proper allocation of gas resource to reduce quantity difference between supply and marketing, which will eventually add economic benefits to Wuhan Natural Gas High-Pressure Pipeline Co.
Project: BT Solid Waste Sanitary Landfill Project - Xinle City, Hebei ProvinceCustomer: Municipal Government of Xinle, Hebei Province, Xinle Construction Bureau
Service: Project Investment, Civil Works, Equipment Contracting, Engineering Services
Brief:
Located in the north of Wufan road in Xinle, the Xinle landfill is 114,000 square meters, with a total disposal capacity of 1,197,000 cubic meters. It has a daily disposal capacity of 220 tons, serving the entire Xinle downtown and nearby suburbs. This landfill was constructed with BT model and 100% funded by governmental investment. With a municipal solid waste decontamination rate of 100%, this landfill ensures the harmless treatment of Xinle’s municipal solid waste for the next ten years. The project utilizes an enhanced sanitary landfill process, combined with a composite impervious system, and a geosynthetic clay liner (GCL) with high-density polyethylene (HDPE) geomembrane to protect underground water resources and the environment.
The implementation of this project reduces pollution from random-dumped urban refuse, improves Xinle City’s natural environment and preserves underground water quality.
Located in the north of Wufan road in Xinle, the Xinle landfill is 114,000 square meters, with a total disposal capacity of 1,197,000 cubic meters. It has a daily disposal capacity of 220 tons, serving the entire Xinle downtown and nearby suburbs. This landfill was constructed with BT model and 100% funded by governmental investment. With a municipal solid waste decontamination rate of 100%, this landfill ensures the harmless treatment of Xinle’s municipal solid waste for the next ten years. The project utilizes an enhanced sanitary landfill process, combined with a composite impervious system, and a geosynthetic clay liner (GCL) with high-density polyethylene (HDPE) geomembrane to protect underground water resources and the environment.
The implementation of this project reduces pollution from random-dumped urban refuse, improves Xinle City’s natural environment and preserves underground water quality.
