Spray nozzles

Guide to efficient tank cleaning

What makes a clean effective?

Any cleaning application has four components that contribute towards its effectiveness.

1- Time. The longer the cleaning if performed the greater the cleaning.
2- Chemicals. This is the dissolving effect of chemical cleaning fluids including
3- Mechanical action. This is physical action of the cleaning spray to dislodge
4- Heat. Generally the hotter the cleaning fluid the better the cleaning action.

Increasing any of these 4 components will improve overall cleaning but there will be a cost associated with each. The cost of each of these elements will differ depending on application and there may well be other constraints in place. For example, in food processing applications there will be limits on the types of chemical that can be applied.

Understanding the differential cost of each element is the key to efficient cleaning. Optimising the mix of elements is the process of increasing one element of the mix that has a lower cost (e.g. mechanical action) so that another element that has a higher cost (e.g. heat) can be reduced. The net cleaning power will remain the same but the cost associated with the cleaning process will be reduced. The relative contribution of each of the 4 elements of the cleaning mix can be represented on a Sinner Circle diagram as shown below.

Low mechanical action sinner circle

Mechanical action is decreased perhaps by lowering pressure or by using an omnidirectional spray nozzle. This means that heat and time need to be increased to compensate.

High Mechanical action sinner circle

Mechanical action is increased by increasing pressure or by changing from spray nozzles to jet cleaners. This means that heat and time can be reduced.

Efficient tank cleaning guide