Instructions on Waste Gas (SO2) and Wastewater Discharge

In various industries, It is common to encounter waste gas (SO2) and wastewater discharge during different manufacturing processes. These emissions need to be carefully managed to ensure compliance with environmental regulations and minimize negative impacts on human health and the environment. This article aims to provide instructions on waste gas (SO2) and wastewater discharge, focusing on the importance of corrosion test chambers and sulfur dioxide testing for effective monitoring and control.

Sulfur dioxide (SO2) is a colorless gas with a pungent odor, commonly emitted during the combustion of fossil fuels and industrial processes involving sulfur-containing materials. It is a significant contributor to air pollution and has detrimental effects on both the environment and human health.

Sulfur dioxide testing is essential to measure and monitor the levels of SO2 emissions in industrial processes. This testing helps identify potential sources of air pollution and evaluate the effectiveness of pollution control measures. Furthermore, it assists in determining compliance with regulatory standards and implementing corrective actions to reduce emissions.

Kesternich test chamber
SO2 corrosion test chamber
1. When the test is completed, open the desulfurization valve on the front, and then turn on the desulfurization switch on the panel. The desulfurization pump starts to work. After the test is completed, The steps for removing waste gas and waste water from the test room:
At this time, The sulfur dioxide gas in the test room will be double desulfurized through the filter liquid and the desulfurization box, and the exhaust gas will be automatically discharged to the outside.
SO2 Removal Valve
2. The desulfurization will be completed in about 10 minutes. Turn off the desulfurization switch, and then close the desulfurization valve.
3. Wastewater discharge is controlled by the drainage valve on the back of the machine body (red knob).
After the water discharge switch of the heating tank is turned on, the water in the heating tank in the box will be discharged to the outside;
After the water drain switch of the test room is turned on, some of the remaining water in the box will be drained;
The filter solution discharge port controls the discharge of filtrate liquid.
Notice 1. The high-concentration gas sealing test body in the test room is replaced every 24 hours, and the above operations are repeated each time it is replaced.
Notice 2. The filter fluid does not need to be replaced every day. You can choose to replace the filter fluid every 96 hours.

Effective management of waste gas (SO2) and wastewater discharge is vital for environmental sustainability and regulatory compliance. Corrosion test chambers and sulfur dioxide testing, specifically the Kesternich test procedure, offer valuable insights into the corrosive properties of materials.

By utilizing these chambers and conducting thorough testing, manufacturers can develop high-quality products, reduce environmental impact, and ensure compliance with stringent regulations. Take advantage of the benefits provided by Kesternich (SO2) chambers to drive innovation, enhance product performance, and promote a greener future.

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