Learn how to identify common soils such as proteins, mineral deposits, fats and natural oils and how to remove them to ensure there is no risk of contamination.
Soil is unwanted matter on the surface of an object that needs to be clean. Soils remaining on food processing equipment are nutrient sources for microorganisms which could result in food safety incidents.
Soils are best identified by characteristics that provide information on how they may be solubilized. Visible soil is classified according to its solubility in water, alkali, acid, surfactant solution or, none of the above. Soils such as sugar and some inorganic compounds can be dissolved and washed away with water. Additionally, the greater part of food soil can usually be suspended in water and simply removed by the force of a water spray.
Soils remaining on food processing equipment are nutrient sources for microorganisms which could result in food safety incidents
Any soil that is not directly soluble in water and is not removed with water pressure will be left behind as a deposit or film. Most films are tightly bonded to surfaces and water sprays as high as 400 psi may be unsuccessful at completely removing the film. In these instances, a detergent must be used. The purpose of detergent is to interact with the film and remove it, either through a chemical or a physical reaction.
Proteins are long chains of different amino acids. All amino acids contain carbon-nitrogen bonds (C-N). Protein soils from milk, eggs, and meat can be solubilized and removed from a surface by a chlorinated alkaline detergent.
How does a chlorinated alkaline detergent remove a protein film from a surface? Chlorinated alkaline detergents contain sodium hypochlorite (NaOCl). NaOCl is an oxidizer which chemically reacts with the C-N bond; it breaks the protein apart and solubilizes the components.
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A blue or rainbow colored film having a varnish like appearance.
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Depending on the process, mineral deposits will take various forms. They are commonly referred to as beerstone, milkstone or waterstone. The composition of these deposits will vary. Some, such as waterstone or hard water scale, are simply the chemical compound calcium carbonate (CaCO3) and can be quickly removed with an acid detergent. Others are more complex matrices of organics and minerals that require a strong chelant or alternating alkali and acid detergent washes.
Description:
White, grey or yellowish deposits, sometimes gritty.
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Fat from animal sources such as milk, poultry, and other meats quickly adheres to surfaces. Natural oils, such as terpenes, that impart flavor to beverages, also adhere to surfaces and act much like fats.
Fats are triglycerides. As such, caustic (NaOH) will chemically break them apart. Cleaning above the melting point of the fat or oil with a hot caustic based detergent is the most effective method of removing fats and natural oils. Generally, this temperature is above 120?F (49?C).
Sometimes surface films cannot be seen but there is visible evidence that a film is present. It is important to bear these indicators in mind to help determine if a surface is clean. Beaded water on a surface is usually proof that a surface film is present and that the surface is not clean. If water sheets evenly from the surface, or a water break free surface is present, then the surface is clean.
Description:
A greasy, oily sometimes white film on which water will form into beads.
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Lubricating greases and oils cannot be solubilized by either acids or alkali. They can be melted by hot water or steam but usually a thin film is left behind. Surfactants are surface-active compounds which help emulsify greases and oils. Detergents built with surfactants will break greases and oils into small globules which are soluble in water or can be suspended in water. Most dust and dirt contain some oily material which makes using a detergent formulated with surfactants the best choice.
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Black and/or greasy film.
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Clear to brown sticky films.
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Blue film
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Black streaks which at times may be sticky.
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White, sometimes streaky film.
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A red, brown or black film.
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White or grey glaze on equipment.
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Pitting, usually with white deposits on and within pits.
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Many processes in the food industry require heat; for example pasteurization, cooking or frying. Soils that are heat set (formed on a heated surface) are usually more difficult to remove than soils that are cold set (formed on a surface at room temperature or lower). The reason is heat denatures and chemically decomposes the soil.
A heat set soil has lost some of its chemical handles and will not quickly react with acid or alkaline detergents. More aggressive cleaning is usually required to remove heat set soils.
The condition or roughness of the surface will influence soil deposition. Unevenness and surface irregularities offer niches for soil deposits to adhere to.
A well-designed sanitation program should provide both preventative and corrective measures for managing soil deposits in food processing. The program should also be regularly reviewed to ensure the required food safety standards are continuously being met. For example, changes in personnel, equipment breakdowns/changes, or changes in the water characteristics, could reduce the effectiveness of the cleaning chemistry and lead to the formation of a film or deposit.
Diversey's cleaning and sanitizing products have been developed to help customers exceed food safety standards throughout the facility. Our Knowledge-based Services - CIPCheck, OPCCheck and SecureCheck - go one step further by evaluating the efficacy of current cleaning chemistry and sanitation procedures while uncovering optimization opportunities. Contact us for further information