Nitrile gloves are made of nitrile rubber, which is different from latex gloves because it does not cause skin allergies. They also have good puncture resistance, chemical resistance, and other properties, which makes them very popular in medicine, food, cleaning, machine manufacturing, and maintenance.
Features of Nitrile Gloves
Nitrile gloves are widely used because they have the following characteristics:
Chemical resistance: Nitrile gloves are highly resistant to chemicals, so they are often used in laboratories, car maintenance, home cleaning,, and other fields to protect hands from chemical exposure.
Tear resistance: Nitrile gloves have better puncture resistance than latex gloves. This makes nitrile gloves more popular in the field of automotive repair and handling engineering.
Skin fit: Nitrile gloves are less elastic than latex gloves, but they are elastic enough to make the inside of the glove close to the skin, making it easier to perform fine operations on the hand, to protect the safety of the hand and facilitate blood circulation, comfortable to wear.
In addition, nitrile gloves are widely used in various industries such as household work, electronics, chemicals, aquaculture, glass, and food.
Waste Gas from the Production of Nitrile Gloves
1. Waste gas from raw material synthesis. This part of the waste gas is produced by the volatilization of unreacted raw materials and chemical auxiliaries during the synthesis of glove raw materials.
2. Waste gas in the production process. When the nitrile glove production line is running, the organic matter such as adhesive and solvent used will produce benzene series, formaldehyde, ammonia, and other harmful substances, which will have an impact on human health and the environment.
Fengwang Waste Gas Treatment Method
1. Set up waste gas collection system. The purpose is to collect the exhaust gas from the operation of the nitrile glove production line so that it is not emitted into the air.
2. Adsorption treatment. Activated carbon has a porous structure and can effectively adsorb harmful substances in waste gas. Therefore, organic pollutants in waste gas can be removed by activated carbon adsorption.
3. Catalytic oxidation. Under the action of the catalyst, the harmful substances in the exhaust gas are oxidized and decomposed at a lower temperature. Therefore, pollutants that are difficult to be adsorbed by activated carbon, catalytic oxidation can be used to treat them.
4. Pretreat. The principle of this technology is to pre-treat dust and particulate matter in the air using filtration electrostatic dust removal.
Emission: When the exhaust gas is treated to reach the emission standard, it is discharged through the chimney.
Waste gas treatment effect: After the above treatment, the harmful substances in the waste gas have been effectively removed, and the emission concentration has reached the relevant national emission standards, effectively reducing the harm to the environment and employee health.