Projects

  Water Volume: 20,000 m³/day Application: Municipal Waste Water DischargeStandard:Class 1 A Process: Microporous Aeration Ozone System Configuration: 2 units of 15 kg/h liquid oxygen-fed ozone generators  

Water Volume: 50,000 m³/day Application: Drinking Water Purification and Disinfection Process:Pre-threatment + Ozone + Activated Carbon Ozone System Configuration: 2 units of 5 kg/h oxygen-fed ozone generators  

Water Volume: 10,000 m³/day Application: Municipal Waste Water Discharge Standard:Class 1A Process: Microporous Aeration Ozone System Configuration: 1 unit of 6 kg/h liquid oxygen-fed ozone generator  

UV system for Nanjing water work project   Daily Waste water flow: 30,000m3/day Discharge standard: Class A Model selection: LCUVC320/8-10 Control: Siemens PLC control

Tianjin Waste Water Treatment Plant UV Disinfection   Daily Water flow: 10,000m3/day Discharge standard: Class A Model: LCUVC320-8-4 Control： Siemens PLC control Lamp: LORCHERA

    Chengdu Industrial Waste Water Treatment Plant Waste Water Flow: 30,000m3/day Discharge Standard: Class A Model selection: LCUVC320-8-6 Control: Siemens PLC

Yunnan Waste water treatment plant Waste water flow: 15,000m3/day Discharge standard: Class A Model selection: LCUV320/8-6

Application: Shanxi Qixian Waste Water Treatment Plant Capacity: 30,000 m3/day Discharge Standard: Class A Model: LCUVC325-8-12 Control System: Siemens  

Application: Hebei Dongguang Waste Water Treatment Plant Capacity: 20,000 m3/day Discharge Standard: Class A Model: LCUVC325-8-8 Control System: Siemens --------------占位---------------

Application: Shandong Linyi Waste Water Treatment Plant Capacity: 30,000 m3/day Discharge Standard: Class A Model: LCUVC320-8-8 QTN: 2 sets Control System: Siemens  

Application: Shanxi Qixian Waste Water Treatment Plant Capacity: 15,000 m3/day Discharge Standard: Class A Model: LCUVC325-8-6 Control System: Siemens        

Shanxi Datong Project: Wastewater Type: Pharmaceutical wastewater.   Process Evolution: Phase I: Initially employed an Ozone Oxidation process, which failed to meet treatment targets. It was subsequently retrofitted into a Fluidized Bed Fenton process. Phase II:  Adopted Magnetic Fenton technology. Comparative Advantage: Both phases treat the same wastewater, providing a direct and fair comparison. The Magnetic Fenton system demonstrated a 90% reduction in failure rate and a 40% reduction in operating costs compared to the Fluidized Bed Fenton system. Annual operational savings exceeding 15 million RMB. This project serves as an ideal reference site for a side-by-side comparison of both Fenton technologies, allowing for direct data collection and validation of Magnetic Fenton's technical superiority.   Project Overview   With a total design capacity of 100,000 m3/day, the plant primarily treats wastewater from a pharmaceutical industrial park and pharmaceutical intermediate production, characterized by poor biodegradability and high difficulty in COD removal. The Phase I project initially adopted an ozone oxidation process as the advanced oxidation technology, which failed to meet the expected treatment targets. It was subsequently converted into a fluidized bed Fenton system, while the Phase II project directly employed the Magnetic Fenton technology.   1. Process Simplified from 3 Stages to 1: The effluent consistently meets the standard of less than 40 mg/L COD, eliminating the need for subsequent sand filtration and activated carbon filtration. This results in a significantly shortened process chain. 2. System Failure Rate Reduced by 90%: Reactor shutdowns for maintenance have been eliminated (saving over 2 million RMB annually), drastically reducing the on-site workload. Additionally, the need for media replacement or replenishment is completely removed. 3. Nearly 1 Million kWh of Electricity Saved Annually: This represents a substantial reduction in power consumption and associated carbon emissions. 4. Overall Operating Costs Reduced by 40%: Annual operational savings exceeding 15 million RMB.   Site view Comparison                                            

Jiangxi Fengxin Industrial waste water plant   1、Capacity 34,000 m3/day； 2、Waste Water source： printing and dyeing wastewater 3、Owner：SIIC Environmental & Ranhill Water； 4、Inlet & outlet water requirement   No Water index Process Inlet Process outlet 1 CODcr（mg/L) ≤120 ≤45 2 SS（mg/L) ≤30 ≤20 3 total phosphorus（mg/L) ≤2 ≤0.5 4 Chroma(times) ≤80 ≤20   Operation Status: Has been operating stably for over 4 years. This project is characterized by its stable compliance, low operating costs, and has been designated by the Jiangxi Provincial Department of Ecology and Environment as a benchmark advanced oxidation project for industrial wastewater. SIIC Environment has expressed high satisfaction with the Magnetic Fenton technology's performance. Based on the success of this project, they have subsequently awarded Jinchuan contracts to implement Magnetic Fenton upgrades at multiple other facilities.   Operation conclusion: 1. Ultra-Low Operating Costs: The cost per ton of water decreased by 1.21 RMB compared to Fluidized Bed Fenton, achieving annual savings of approximately 9 million RMB. 2. Zero Reactor Failures: The Magnetic Fenton reactors have experienced zero failures since commissioning. 3. SIIC Environment has shown high recognition for the Magnetic Fenton technology, subsequently awarding Jinchuan contracts to implement upgrades at three of their projects.   4. The consecutive collaboration with SIIC Environment on multiple projects serves as a clear demonstration of Magnetic Fenton's technical superiority and proven performance in the field.

Jiangxi Yongxin Industrial Waste Water Plant   Capacity:10,000m3/day Waste water source: Leather + chemical industrial waste water, Owner: SIIC +Ranhill water   1. The project originally used a Fluidized Bed Fenton process but was upgraded to Magnetic Fenton process due to issues of high chemical consumption and a high failure rate. 2. The chemical cost is approximately RMB 1.01 per ton of water, and the power consumption cost is RMB0.08 per ton. This has resulted in a reduction of RMB 1.2 in the overall operating cost per ton of water 3.Annual operating cost savings amount to approximately RMB 2.8 million.  

Treatment Capacity: 20,000 m³/day Waste Water Source: Paper Making Waste Water Inlet Water COD: 90mg/L Outlet Water COD Result: 40mg/L Advanced Oxidation Process: Magnetic Fenton Process Chemical Cost: 0.67rmb/m3 water  

Waster Supply Disinfection   Water flow: 110,000m3/day Capacity: 11kg/h*2(one duty one standby) Chlorine concentration:8000ppm Dosing rate: 2ppm Control: PLC control/full automatic Salt consumption: 3.5 kg/kg Cl2 Energy consumption: 4kwh/kg Cl2