Standard tube exchangers and slurry heaters have for long been the devices of choice for providing required heat energy across a multitude of industries, maybe for far too long. There is a much superior device in town and it is 300% more efficient. Say hello to the Klean-Wall heat exchanger.
What is the Klean-Wall heat exchanger?
As the name suggests, the Klean-Wall heat exchanger is a heat exchanger, but unlike any heat exchanger you might have already come across.
This brilliant piece of design and engineering uses an advanced inline mixing system that relies on some state-of-the-art technology to produce maximal steam heat efficiency that is 300% of what you can expect from the regular shell and tube heat exchangers.
One of the primary perks of the Klean-Wall Heat Exchange is its superior efficiency when contrasted to conventional heat exchangers. It is 300% more efficient and that is a huge advantage to have.
One of the ways in which the Klean-Wall heat exchanger does this is by removing wall build – up which is generally a huge problem with conventional heat exchangers. The minimal wall build–
up means that the amount of service and maintenance required is far lesser in frequency and intensity. Since the general design of the Klean-Wall Heat Exchanger does not have any corners, there is not much solid and fibrous material buildup, which would have otherwise accumulated in all possible corners.
Another huge improvement comes in the form of decreased retention time of slurry within a digester (nearly a 50% decrease compared to conventional heat exchangers).
Furthermore, there are certain mixing elements behind the Klean-Wall heat exchanger that facilitate a drastic improvement in bacteriology as well.
Irrespective of why you are looking for a heat exchanger, be it for waste water treatment, a sludge to water heat exchange facility, or a sludge to sludge heat transformation utility, the heat exchanger can be used for it all and performs evidently better than any other heat exchanger available in the market today.