System Introduction
Integrating 5 unique and patented technologies, the Air-Water-Pollution Joint Prevention and Control System is an all-in-one solution for your organization to achieve Net Zero Emission.
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Adsorption Recycle Technology
Distributed Database
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Innovative E-MVR
The MVR (Mechanical Vapor Recompression) technology can be applied to
wastewater concentration or seawater desalination. To address the various
shortcomings that the previous MVR equipment had been criticized for, we
have implemented innovative designs in our new energy-efficient E-MVR
distillation system. These innovations include Y-shaped diversion pipelines,
highly efficient defoaming buckets, steam-heated shell-and-tube exchangers, and the recovery of distillation water heat energy for preheating waste liquids.
These unique patented technologies not only reduces the likelihood of
crystallization within the distillation chamber and the blades of the compression fan but also efficiently recycles and reutilizes waste heat or steam energy from the factory. To increase the thickness of the distillation chamber and the substantial reduction in residual wastewater foam in the steam contribute to the durability and extended lifespan of the E-MVR equipment. This advancement aids businesses in achieving ESG goals such as energy conservation, carbon reduction, and achieving net-zero emissions.
LCW Fiber: Rare & Precious Metals
Adsorption Recycle Technology
By integrating the E-MVR equipment with LCW chelating fiber adsorption technology, it can be utilized for the recovery of precious metals from concentrated waste liquids and seawater. This integration enables a strategic synergy of energy conservation and carbon reduction, fostering a win-win scenario, while also promoting the advancement of a circular economy for recycled metals.
The polymer fibers are developed by LCW in cooperation with Pacific Northwest National Laboratory (PNNL). Utilize its strong chelating ability to adsorb precious metals such as cobalt, copper, uranium in the concentrated waste liquid discharged from E-MVR, and truly achieve circular economy. This integrated technology has the potential that leads the world and the possibility of technology export to the world.
E-Evaporation Dryer
With “recovery of high-temperature concentrated waste liquid heat energy”, “energy saving and carbon reduction”, E-Evaporation Dryer uses flash evaporation technology, heat recycle system and improved drying oven design. Combined with E-MVR equipment, direct the high-temperature concentrated waste liquid to the E-Evaporation Dryer. Evaporation of residual water and other volatile liquids to dry sludge, to reduce waste disposal costs.
AIoT iCloud Distributed Database
Use IPC to receive the data of each device (Slave) of distillation device, heat exchanger, dryer and I/O module through EtherCAT, at the same time, transmit the control signal to each device to realize multi-part integration and networking functions.
Pollution Scrubber
The exhaust gases generated within the factory, after undergoing heat recovery through the heat exchanger in E-MVR, will be cooled to around 150°C. However, these exhaust gases must still pass through a scrubber to remove pollutants and suspended particles before they can be discharged, in accordance with regulatory standards.
System Features
This system could simultaneously solve the three major pollution problems of waste water, waste gas and waste heat.
Explore our innovative system that integrates high-efficiency wastewater distillation, precious metal adsorption, zero wastewater discharge, air pollution treatment, and carbon reduction into a single solution.
Utilizing the waste heat produced by the factory, heat and concentrate wastewater, and redirect the obtained distilled water back into the factory for reuse.
The prices and significance of rare and precious metals are continually on the rise. Utilizing pioneering LCW fiber adsorption technology to recover valuable metals from concentrated waste liquids or seawater will deliver benefits to our customers that exceed their expectations.
Built upon IPC equipment and EtherCAT technology, this approach achieves the goal of multi-machine integration. It utilizes a single interface for device operation and configuration, while also receiving operational efficiency data from the devices. This enhances the convenience of system management and monitoring.
Advantages
The optimal solution for enterprises to successfully achieve their ESG environmental goals.
By utilizing a more energy-efficient, cost-effective, and efficient Air Pollution and Sewage Joint Prevention and Control System, we assist businesses and organizations in achieving their carbon neutrality goals.
High Flexibility
Optimized Energy Efficiency
Recycling of Rare and Precious Metals
Zero Waste Water
Modular Designs
Blockchain
Database
