| Pharmaceutical manufacturing industries use closed | | | | all those industries that require internal cleaning of |
| systems for safety purposes. Cleaning of these | | | | their system equipments. Pharmaceutical industries, |
| systems is very difficult as the surfaces are not | | | | biotechnological plants, pharmaceutical manufacturing |
| exposed and are interior. These safety systems | | | | industries, cosmetic production, food processing and |
| include interior surfaces of vessels, pipes, process | | | | diary farms are some of the industries that produces |
| equipments and associated fittings that are utilized in | | | | eatables and medicines and require complete |
| different stages of development. Clean-in-Place is a | | | | protection against any sorts of contamination. |
| technique that provides an automated cleaning | | | | Clean-in-Place is an automated technique that |
| solution to these safety devices. Before the | | | | provides faster and less labor intensive cleaning |
| introduction of this technique, all the systems were | | | | solutions. This technique also ensures complete |
| initially disassembled and then cleaned manually. But | | | | safety of the workers engaged in the cleaning |
| the major problem faced by this traditional approach | | | | process. At present, this method is used along with |
| was temporary shut down of the production | | | | the conductivity measurement process that logically |
| systems which in turn hampered the whole | | | | demonstrates all the cleaning steps and ensures that |
| production process. However, this modern technique | | | | no cleaning solution is left in the equipments. Thus, it |
| has enabled the proper cleaning of these closed | | | | protects all the devices against corrosion and retains |
| systems without disassembling all the parts. | | | | their quality. Hence, we can say that this cleaning |
| The invention of Clean-in-Place technique is a boon to | | | | technique is very efficient and reliable. |