SKU: BBR160-10
Enov® K160 StainAway Crockery Destaining Powder is a soluble free flowing chlorinated powder developed for the quick and safe removal of tannin stains from crockery, plastics, stainless steel tea urns, coffee pots and vending machines and helps remove water spotting from cutlery.
Why choose Enov® K160 StainAway Crockery Destaining Powder?
- A powder specially formulated to remove stubborn stains from cups and crockery
- Alkaline powder contains active oxygen for effective removal of tea, coffee and fruit stains
- Effectively assists removal of burnt on food residues and starch
- Also removes stubborn tannin stains
- Suitable for soaking plastic materials
Where can you use Enov® K160 StainAway Crockery Destaining Powder?
- Can be used on crockery, plastics, stainless steel tea urns, coffee pots and vending machines and on commonly used kitchen surfaces
How do you use Enov® K160 StainAway Crockery Destaining Powder?
- This product should usually be sited in the stillroom or in an area where de-staining is done. For use on all crockery, plastics, melamine, stainless steel urns, coffee pots and can also be used to remove marks on most plastic chopping boards.
- Hand dosed using the 50g scoop (Not Provided).
- Dissolve 2 to 4 scoops of the powder into a sink or other appropriate vessel of hot water and allow items to soak for 20 to 30 minutes.
- For heavily tannin stained tea/coffee pots and cups it is best to soak overnight.
- Remember to rinse thoroughly after de-staining; items should be preferably rewashed in the dish washer before being returned to service.
- Keep container tightly closed in a cool dry place and store in a safe manner in a locked storage area away from the general public.
- Never mix chemicals together or re-fill containers from other vessels or drums.
Biodegradability
All surfactants contained in Enov Products meet the requirements of the EU Detergent Directive 2005 – 2004/648/EC. This requires all surfactants to break down both quickly and completely into harmless material such as CO2 and water.