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A chemical scrubber is an air pollution control device that is used to remove hazardous pollutants from industrial exhaust gasses. Chemical scrubbers work by passing the exhaust gas through a liquid solution, which absorbs the pollutants. The liquid is then treated to remove the pollutants and the treated liquid is discharged from the scrubber.
Chemical scrubbers are used to reduce the amount of pollutants released into the atmosphere from industrial processes.
They are most commonly used to reduce emissions of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs). Chemical scrubbers can also be used to reduce emissions of particulate matter (PM), sulfur dioxide (SO2), and nitrogen oxides (NOx).
Chemical scrubbers are often used in conjunction with other air pollution control devices, such as wet scrubbers and thermal oxidizers. Wet scrubbers use a spray of water to remove particulate matter from the exhaust gas and thermal oxidizers burn the pollutants at high temperatures to convert them into harmless compounds.
Chemical scrubbers can be used to reduce the amount of pollutants released into the atmosphere by industrial processes, helping to protect the environment.
They are also highly effective at removing pollutants, and are often the best choice for many industrial applications. Chemical scrubbers are relatively easy to install and operate, and can be used for a variety of industries, including refineries, chemical plants, and cement plants.
The Global Chemical Scrubber market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The most recent iteration of Scrubber 50 Pro, Gausium’s multi-award-winning robotic cleaning solution, has been launched. The latest iteration features fresh colours and a modernised external style.
A tidy operator panel with fewer physical buttons for easier use is another feature of this device. It is now simpler to modify settings and customise the cleaning experience because the options were incorporated into the software by the designers to avoid confusion.
The sensor arrangement, which improves the accuracy and efficiency of the robot’s navigational abilities, is one of the main improvements. The RGB camera included with the most recent version of Scrubber 50 Pro enhances the robot’s capacity to identify obstacles from behind and combines with the front cameras to provide flexible obstacle avoidance in intricate and dynamic environments.
Furthermore, in order to improve their ability to identify hanging items that can impede the robot’s route from above, the left and right depth cameras have been repositioned to the bottom side and are now facing upward.
Additionally, the robot now has a rear LiDAR, which improves its efficiency while docking station connections. It can be difficult to do autonomous docking, particularly in dimly illuminated areas. Even in low light, the Scrubber 50 Pro’s rear LiDAR makes it simpler to locate and connect to the docking station.
The redesigned Scrubber 50 Pro boasts a larger 30-liter clean water tank, which increases capacity by 25% and allows for uninterrupted cleaning for longer periods of time.
The revolutionary Auto Spot Cleaning feature, which has been further enhanced for better efficiency, is one of the main benefits that the new Scrubber 50 Pro keeps over from its predecessor.
The robot can identify contaminants on the floor and carry out autonomous spot cleaning in those spots thanks to its AI-enabled RGBD camera and deep learning-based algorithms.
The Scrubber 50 Pro uses less water, energy, and chemicals and is up to four times more efficient than conventional cleaning methods since it only cleans where it is needed. By stopping the spread of illnesses and the accumulation of pollutants, it also contributes to the creation of a safer environment.