Gold Rush in PVC Glove VOC Recovery

In PVC glove manufacturing, solvents like D70 and D80, along with plasticizers such as DOP, are essential for achieving the flexibility and durability required in medical, industrial, and household gloves. The dipping process relies on these materials to ensure smooth production and consistent product quality. However, the use of solvents also leads to the release of VOCs, which pose environmental and workplace safety concerns if not properly controlled. While PVC gloves represent a major application of high-plasticizer formulations, similar materials are also used in artificial leather, inflatable products, hoses, cable insulation, and films. In contrast, lower-plasticizer or solvent-based formulations are found in adhesives, protective coatings, shoe soles, foam products, sheets, and other rigid or semi-rigid PVC applications.

Sustainable Solutions for VOC Management

Efficient VOC capture is vital to mitigate these risks. Kleanland’s VOC Capture Solution employs advanced technologies like adsorption, condensation, or catalytic processes to recover and purify VOC emissions from production lines, converting them into reusable solvents. This approach not only reduces harmful emissions and environmental pollution but also enables factories to lower raw material costs, enhance economic efficiency, and align with sustainable development goals. By bridging industrial productivity with ecological rEsponsibility, such systems demonstrate how technological innovation can address both economic and environmental challenges in modern manufacturing.

Successful Cases Through out PVC Glove Manufacturing Industries

Kleanland Carbon-Based VOC Recovery Solution

Successful VOC recovery cases from Top Glove, Intco Medical, PowerGuard, Blue Sail, Hang Cheong Glove, etc.. This list goes on and on, and most of the PVC glove manufacturers have chosen Kleanland VOCs Recovery Solution. The market speaks itself. The typical application out of them, save up 1.2 million dollars for a single solution within one year!

How Kleanland VOC Capture System Work?

Kleanland Rotary Carbon Wheel Adsorption

Adsorption Process (VOC Capture)

Adsorption is a surface phenomenon where gas-phase VOCs adhere to the surface of a solid (activated carbon) due to Van der Waals forces and capillary condensation in micropores.

Activated carbon has a high surface area and porous structure, allowing it to effectively trap VOC molecules.

The efficiency of adsorption depends on temperature, pressure, VOC concentration, and the nature of the VOCs (e.g., polarity, molecular weight).

Desorption Process (VOC Recovery & Carbon Regeneration)

Desorption is the reverse process of adsorption, where VOCs are removed from the activated carbon using heat, steam, vacuum, or inert gases.

This process allows the carbon to be reused and the VOCs to be condensed and recovered for reuse.

Stop RTO from burning your money away

RTO systems burn away your VOCs—and your money! But with Kleanland's VOC Recovery Solution, you can recover 95% of VOCs, turning waste into profit with massive economic benefits. Every drop counts! Your competitors are recycling VOCs into reusable solvents, that's why they are selling at a price you can't beat! Join the leader in VOC recovery—Kleanland who dominates China’s industrial market, the world’s factory hub.

PVC gloves are flexible PVC products with a high DOP content, which provides the necessary softness. They are manufactured by incorporating large amounts of DOP or other plasticizers into PVC resin. Similar flexible PVC products include PVC gloves (medical, industrial, household) produced via dipping, PVC artificial leather used in furniture, car seats, and bags made through calendering, and PVC inflatable products such as toys, swimming rings, and air mattresses, which are formed by heat welding. Additionally, PVC flexible hoses and tubing for medical use and fuel lines, as well as PVC cable insulation and sheathing, are manufactured via extrusion. PVC film and cling wrap, used in food-grade and industrial applications, are produced using calendering or blow molding. On the other hand, when a lower amount of plasticizer or solvent-based processing (e.g., D70, D80) is used, the PVC remains semi-rigid or rigid, making it suitable for different applications.

For over 30 years, Kleanland has been committed to advancing ESP filtration technology and improving air quality. Through continuous investment in manufacturing craftsmanship and filtration efficiency, we have refined our systems from fundamental designs to cutting-edge solutions. By adapting our ESP filtration technology to diverse applications, we ensure high purification efficiency, energy savings, and long-term reliability.

At Kleanland, innovation and excellence are at the core of everything we do. Every solution we develop reflects our unwavering commitment to quality, technological advancement, and a cleaner, healthier world.

Passion in Air Quality

At Kleanland, innovation and excellence in air purification are not merely aspirations—they are the very foundation of our success. Every solution we develop reflects our unwavering commitment to quality, technological advancement, and a cleaner, healthier world.

We take great pride in our brand and have forged robust partnerships with dealership and service networks both domestically and internationally. These strategic collaborations empower us to consistently provide outstanding value to our shareholders, customers, and staff.