The 50A 36V Electrocatalytic Oxidation Rectifier is a precision-engineered DC power source designed to drive Advanced Oxidation Processes (AOP) for the effective degradation of complex organic contaminants in industrial wastewater.
| Commonly Used Water Treatment Power Supply Models (Custom models are available if not listed in the table). | |||||||
| Model | Output current A | Output voltage V | Power KW | Input current A | Input voltage V | Weight (KG) | Width W * Length L * Height H |
| GH10024 | 100A | 24V | 2.4 | 12 | 220 | 17 | 380*400*170 |
| GH100100 | 100A | 100V | 10 | 17 | 380 | 40 | 450*500*225 |
| GH120100 | 120A | 100V | 12 | 20 | 380 | 40 | 450*500*225 |
| GH20015 | 200A | 15V | 3 | 15 | 220 | 17 | 380*400*170 |
| GH20024 | 200A | 24V | 4.8 | 8 | 380 | 40 | 450*500*225 |
| GH20036 | 200A | 36V | 7.2 | 12 | 380 | 40 | 450*500*225 |
| GH20048 | 200A | 48V | 9.6 | 16 | 380 | 40 | 450*500*225 |
| GH200100 | 200A | 100V | 20 | 33 | 380 | 130 | 510*580*920 |
| GH30024 | 300A | 24V | 7.2 | 12 | 380 | 40 | 450*500*225 |
| GH30036 | 300A | 36V | 10.8 | 18 | 380 | 40 | 450*500*225 |
| GH30048 | 300A | 48V | 14.4 | 24 | 380 | 95 | 510*580*690 |
| GH300100 | 300A | 100V | 30 | 50 | 380 | 130 | 510*580*920 |
| GH33030 | 330A | 30V | 9.9 | 16.5 | 380 | 40 | 450*500*225 |
| GH40030 | 400A | 30V | 12 | 20 | 380 | 40 | 450*500*225 |
| GH50024 | 500A | 24V | 12 | 20 | 380 | 95 | 510*580*690 |
| GH50036 | 500A | 36V | 18 | 30 | 380 | 95 | 510*580*690 |
| GH50048 | 500A | 48V | 24 | 40 | 380 | 95 | 510*580*690 |
| GH50012 | 500A | 12V | 6 | 10 | 380 | 45 | 380*400*170 |
| GH60048 | 600A | 48V | 28.8 | 48 | 380 | 95 | 510*580*920 |
| GH100024 | 1000A | 24V | 24 | 40 | 380 | 95 | 510*580*690 |
| GH100036 | 1000A | 36V | 36 | 60 | 380 | 130 | 510*580*920 |
| GH100048 | 1000A | 48V | 48 | 80 | 380 | 130 | 510*580*920 |
| GH100012 | 1000A | 12V | 12 | 20 | 380 | 45 | 480*525*310 |
| GH200024 | 2000A | 24V | 48 | 80 | 380 | 130 | 510*580*920 |
| GH300024 | 3000A | 24V | 72 | 120 | 380 | 165 | 530*600*1200 |
| GH4000100 | 4000A | 100V | 400 | 667 | 380 | 195 | 580*650*1400 |
| GH800036 | 8000A | 36V | 288 | 480 | 380 | 235 | 600*680*1600 |
| GH1000036 | 10000A | 36V | 360 | 600 | 380 | 260 | 800*1350*1510 |
Our 50A 36V Electrocatalytic Oxidation Rectifier is engineered as the power core for cutting-edge wastewater purification systems. To understand its critical role, it is essential first to grasp the technology it enables. This advanced power supply drives the electrocatalytic oxidation process, a highly effective method for degrading persistent organic pollutants in industrial effluent that other treatments often leave behind.
Building on that foundational understanding, let’s examine what makes our rectifier uniquely suited for this demanding application. This electrocatalytic oxidation rectifier is specifically designed to maximize the inherent benefits of the AOP (Advanced Oxidation Process) technology, translating electrical efficiency into treatment excellence.
Automated Control: Finally, operational simplicity is achieved. The entire system, powered by this stable and responsive supply, is designed for fully automated, unattended operation, significantly simplifying plant management.ermal power plants, chemical manufacturing, papermaking, steel production, and printing & dyeing.
Low Operating Costs: A key advantage lies in operational economics. The technology eliminates the recurring need for adding expensive chemical oxidants, which drastically reduces ongoing operational expenses compared to traditional methods.
No Secondary Pollution: Furthermore, environmental impact is minimized. The system produces minimal sludge, thereby avoiding the secondary pollution and complex disposal costs typically associated with chemical or biological treatment processes.
Strong Oxidizing Ability: From a performance standpoint, the rectifier enables the consistent generation of highly oxidizing hydroxyl radicals (·OH). These radicals are exceptionally powerful and react non-selectively, allowing them to break down a wide spectrum of complex contaminants.
To appreciate its reliability, it’s helpful to look under the hood. The power supply is not a simple transformer; it is a sophisticated electro-mechanical assembly engineered for precision and durability.
Its structure can be logically followed through the power conversion stages:
The Brain & Nervous System: Overseeing and protecting this entire process are the auxiliary power circuit and the intelligent main control unit. This control unit is the system’s cornerstone, integrating vital protections against phase-loss, temperature excursions, overloads, and short-circuits, all while employing a precise PWM circuit for real-time PI regulation.
Input Stage: It begins with a robust rectifier-filter circuit that conditions the incoming three-phase AC power from the grid.
Conversion Stage: This clean AC is then efficiently converted by a high-frequency full-bridge converter (utilizing reliable IGBT or MOSFET modules) and a precisely wound high-frequency transformer, which steps the voltage down to the required level.
Output Stage: Next, a high-frequency rectifier-filter circuit further refines the signal, delivering the smooth and stable 36V DC output essential for the electrochemical reaction.
The advanced structure enables a suite of user-focused features and robust safeguards. This 50A 36V Electrocatalytic Oxidation Rectifier is built not just for performance, but for unwavering safety and ease of use in the most demanding industrial environments.
Perhaps most importantly, the rectifier is guarded by a Comprehensive Protection Suite that acts as a vigilant safety net:
* Phase Loss Protection: Automatically locks out operation if any phase of the three-phase AC input is lost, preventing equipment damage.
* Overcurrent Protection: Instantly triggers a shutdown and alarm state if the output current exceeds the rated 50A threshold.
* Short-Circuit Protection: Engages a circuit breaker to automatically and safely disconnect the power supply in the event of a load or internal short-circuit.
* Over-Temperature Protection: Continuously monitors vital components like IGBTs and Schottky diodes, locking the unit if temperatures exceed a safe 80°C threshold.
