Innovative Emulsion Wastewater Treatment with Boron-Doped Diamond Electrode
Introduction:
In collaboration with an esteemed environmental protection company, our organization conducted a groundbreaking pilot test site dedicated to Emulsion Wastewater Treatment. This case study delves into the transformative Emulsion Wastewater Treatment process and introduces the pioneering use of Boron-Doped Diamond (BDD) electrode technology through electrochemical oxidation.
Objective:
The primary goal of this case study is to showcase the exceptional efficacy and cost-effectiveness of the Emulsion Wastewater Treatment process using the advanced BDD electrode technology.
Background:
The initial conditions at the product engineering site revealed a challenging scenario with emulsion wastewater, demanding an effective and economical solution. The conventional process incurred a substantial cost of over 1000 yuan per ton of water. In response, our team introduced the BDD pilot module, aiming to revolutionize the wastewater treatment paradigm.
Technological Advancement:
The BDD electrode module, featuring cutting-edge electrochemical oxidation, demonstrated a remarkable shift in the treatment dynamics. The establishment cost of our electrode module was optimized to be under 400 kWh, presenting a significant reduction compared to the conventional method. This not only enhances cost-efficiency but also contributes to sustainable wastewater treatment practices.
Operational Details
The BDD electrode module, covering an area of 2 square meters, effectively processed a daily wastewater volume of 2 tons. One of the notable advantages lies in the scalability of the electrode module, allowing for continuous expansion based on the wastewater treatment volume. Importantly, this scalability is achieved without the need for additional floor space, ensuring a streamlined and space-efficient wastewater treatment system.
Unique Features
The integration of Boron-Doped Diamond electrode technology distinguishes our Emulsion Wastewater Treatment process from traditional methods. The BDD electrode, through electrochemical oxidation, accelerates the breakdown of contaminants, leading to a more efficient and environmentally friendly treatment process. This innovative approach not only ensures optimal resource utilization but also aligns with sustainable practices, positioning it as a forefront solution in the field.
Results
The outcomes of the pilot test demonstrated a substantial reduction in the overall treatment cost per ton of water, surpassing the conventional method. The adaptability and efficiency of the BDD electrode module underscore its potential as a transformative technology in the realm of wastewater treatment.
Conclusion
This case study highlights the successful implementation of emulsion wastewater treatment using the Boron-Doped Diamond electrode via electro oxidation. The innovative approach showcased significant cost savings, operational efficiency, and scalability, making it a promising solution for sustainable and cost-effective wastewater treatment. The integration of advanced BDD technology propels our emulsion wastewater treatment process to the forefront of environmentally conscious and economically viable solutions.
The pilot test site of our company in cooperation with an environmental protection company – Emulsion Wastewater Treatment.
The appearance of the product engineering site, the BDD pilot module, contains emulsion wastewater.
The original process cost is more than 1000 yuan per ton of water, while the establishment cost of our electrode module is more than 400 kWh, the daily wastewater treatment volume is 2T, and the electrode area is 2 square meters.
Depending on the wastewater treatment volume, the electrode module can be increased continuously, basically without increasing the floor space.