Chemical Composition and Action of Soaps and Detergents
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Soaps and detergents are used to remove dirt. Dirt is oily in nature and this characteristic mean that it is insoluble in water. Most of dirts are considered to be oily (Raymond 55). The sodium or potassium salts which have long chain carboxylic acids in soaps help in removal of dirt. The soaps have a carboxylic acid end on one side which is bonded by a metal ion end. The two major parts of the soaps and detergents are the non-ionic hydrocarbon group and the ionic group of COO-Na+. The soap and detergents components help to decompose the oily parts therefore making them insoluble in water. The chains of chemical compositions in soaps and detergents are responsible to removal of the oily parts and making them soluble in water. Soaps are cleaning agents which have salts of fatty acids (Birdi 62). Detergents on the other hand are composed of mixed chemical compositions which aid the cleaning factor. The components of soaps and detergents are represented as;
(a fatty acid end) : CH3-(CH2)n-COO-Na+ : (water soluble end)
Therefore soaps and detergents have two main parts, which include the ionic end which is hydrophilic. This is water attracting end and is soluble in water. The other end is non-polar hydrocarbon chain which usually hydrophobic or water repelling end. This end is able to attract dirt and get attached to them (Parent 18). In their working, these molecules are able to bridge between water and dirt. They then break the dirt and form emulsions which consist of the dirt droplets which are suspended in water. In their action, soaps and detergents chemical molecules are able to reduce the surface tension of water and therefore reducing the interfacial tension between dirt and water. This makes the dirt soluble in water and therefore be removed by water. The ability of the soap parts to attract other molecules in this case that of dirt makes then brings the cleaning effect (Ali, Ali and James 29).
In addition, being part of the surfactant category, the polar and non-polar ends are able to aid the attraction of the dirt parts and lifting the stains off the fabrics (Anderson and David 73). This allows the soaps and detergents to bring out the washing and rinsing effect. In addition, in their actions, when dirty fabric is placed on water which has soap, the hydrocarbon ends of the soaps molecules in the micelle attach to the dirt. The soap micelles are therefore able to entrap the dirt particles using the hydrocarbon end. The other end which contains the ionic end remains attached to water. Due to the action of the dirt particles on the surface of the fabric get dispersed in the water and this enhances the cleaning effect. Therefore the actions of the soaps and detergents are enhanced by the two ends, which include the hydrophilic and hydrophobic ends. In addition, during the action, the two ends create a force which is opposing and therefore loosening the dirt (Solway 51). Applying force on the fabric is able to agitate the freeing of the dirt.
Impact of Ions on the Cleaning Process
Introduction of ions in water makes water hard and this affected the action of soaps and detergents in water. Ions such as calcium ions Ca2+ iron ions Fe2+, manganese Mn2+ and magnesium Mg2+ among other may find their way into water and make it hard (William 25 and Pugh 35). Their presence affects the functionality and action of soaps and detergents. In many cases, the ions find their way when water flows through rocks and therefore extract them. The cleaning effect of water is affected and soaps and detergent have to combine with ions first before starting the cleaning effects of dirt. First, the chemical composition of the soaps and detergents combine with the ions to form scum. The soap film or scum is insoluble in water and it does not rinse away easily. Due to this action, the soap available for cleaning is reduced. In other word, it is clear that the soap will clear the ions first before it starts cleaning out the dirt. Therefore the presence of ions is able to affect the solubility rate of the soaps and detergents (Satyanarayana 76). The main reasons are because the chemical components of the soaps and detergents have to act on the ions first by neutralizing them and then present their cleaning effects. In addition, introduction of ions in water increases the amount of soaps and detergents which has to be used to bring out the required effect.
Since the detergents and soaps have a part which is water attracted, they can be considered to have a particular degree of solubility. The water loving end will get attracted to water molecules and therefore soaps and detergent combine with water. The presence of ions reduces the cleaning effects of soaps and detergent (Brown, Brent, Eric and Christopher 73). In particular, their solubility and compatibility with water molecules is affected by the presence of the ions. In particular, soaps are either salts of long chains fatty acids of sodium or potassium. When the soap is added to hard water which has the ions, the reaction of soaps and ions takes place first. The salt from the salt combines with the particular ions to form the respective precipitation ass a scum.
Ca2+ + RCOONa = RCOOCa + 2Na+
Ion soap calcium salt (scum)
The reaction with the ions forms an insoluble precipitate. It is clear that the solubility of the soap or detergent is affected by the presence of the ions (Urban 23). The high attraction between the soap or detergent molecules with the ions reduces the soap or detergent solubility rate. The solubility of soaps in water depends on the ionic part, which is soluble in water. The attraction of this part to ions is more than its attraction to the water molecules. Therefore the introduction of the ions in water will mean that the soap ionic part will first bond with the ion part and not the water molecule (Rudnick 107). Since the combination of the ions and ionic part of the soap forms a scum which is insoluble, the solubility of soap is highly reduced when the ions are present in water.
Solubility of Soaps and Detergents
On the other hand, detergents a basically similar to soaps but only differs little on the water soluble portion (Raymond 109). There are three types of detergent as shown below;
Nevertheless, even with the difference on the ionic parts, their action in water is similar. Therefore the solubility of detergent as well will depend on the attraction of the ionic part to the ions and water molecules (Broze 19). In the same way as the soaps, the ionic part has a strong attraction to the ions than to the water molecules. Nevertheless, the attraction does not lead to the formation of the insoluble scum.
In conclusion, it is clear that the chemical combination of the parts of the soaps and detergents help them to offer the cleaning effect. The two chemicals have two end molecules. The two ends include the hydrophilic which is water attracting end and hydrophobic end which is water repelling end. The hydrophobic end is able to get attached to the dirt while the hydrophilic end gets attached to the water molecules. This introduced an opposing force and helps to detach the dirt from fabrics with application of a force. The introduction of ions changes the attraction formula. The ions have high attraction to the ionic ends of the soaps and detergents and this leads to formation of scum. The solubility of detergents is highly affected by the presence of ions. This is because the ionic parts of the soaps must first get attached to the ions presence before they dissolve into water.
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Raymond G. Bistline, Jr., "Anionic and Related Lime Soap Dispersants," in Anionic surfactants: organic chemistry, Helmut Stache, (ed.) CRC Press, 2011
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William Reusch, Application of Solubility: Soap, Virtual Textbook of Organic Chemistry. Michigan State U. April 24, 2015, Print
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