Tips for Overcoming Cooking Oil Difficult to Missing In cooking utensils The reason oil is difficult to clean even though it has been washed with soap
- cooking oil has properties that make it difficult to dissolve in water. Oil is nonpolar, while water is polar.
Nonpolar properties of oil cause oil molecules tend to attract each other and not mixed with water, which is polar. Therefore, when trying to clean the oil with soap, sometimes soap cannot be assigned or breaks oil effectively due to the mismatch of the polar and nonpolar properties. - cooking oil is often difficult to clean by soap because of the nature of oil that is hydrophobic or insoluble in water.
Soap, basically, consists of molecules that have two different ends, namely the hydrophobic tip that attracts oil and the end of the hydrophilic that attracts water.
The cleaning process with soap involves emulsion, where oil is broken down into small particles which can then be dissolved in water. - Oil can also form a thin layer on the surface of the object, making it difficult to remove only with ordinary water and soap. In addition, some cooking oils can contain certain substances, such as saturated fats or food residues, which make it more sticky and difficult to clean.
In addition, some cooking oils can contain certain substances, such as saturated fats or food residues, which make it more sticky and difficult to clean. - Sticky oil residues not only make the equipment look dull, but can also be a potential source of bacteria and germs.
Tips for Overcoming Cooking Oil that is difficult to clean
“ To overcome this difficulty, use chemicals specifically designed to treat oil, such as Labs (Linear Alkylbenzene Sulfonate) /
ABS (Alkaline Benson Sulfate) or add a literal / nonylphenol ethoxylate (NP) can be a more effective solution. ”
These ingredients are usually designed to overcome nonpolar oil properties better, allowing oil removal more efficiently.
How these ingredients work:
Generally this material is anionic, which means the molecule has a hydrophobic (affinity to oil) and the hydrophilic (affinity to water). This structure allows this material to interact with both oil and water.
When the concentration of this material reaches the critical concentration of the miclar, the molecules of this material form a structure called micel.
Micel is an aggregate of molecules that are arranged in such a way that the hydrophobic parts around the oil and the hydrophilic part faces out, towards the water.
This helps in developing oil and dirt, so that it can be lifted more easily by water.
This material works by reducing surface tension between oil and water. The hydrophobic part of this material molecule is integrated with oil, while the hydrophilic part is integrated with water.
This allows oil and water to mix more efficiently, forming emulsions that facilitate the removal of oil by water.
Molecules of this material can penetrate the layer of oil and dirt, break it into smaller particles.
This process facilitates the removal of dirt by water, forming an emulsion that can be rinsed easily.
Also Read: How to Use ABS/Labs and NP10/Little