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Synthetic Detergent and Linear Alkyl Benzene 

Detergent 

A detergent is a surfactant or a mixture of surfactants having cleaning properties in dilute solutions. Commonly, "detergent" refers to alkylbenzenesulfonates, a family of compounds that are similar to soap but are less affected by hard water.

  • High detergency in soft and hard water (they do not react with Ca and Mg solution.)
  • Requirement of small quantity
  • Detergency action at low temperature
  • Do not hydrolyses Table M

Table M-IV 2.1: Types of Specialty Surfactants  

 

Anionic

Amphoteric

Cationic

Nonionic

Ether carboxylates

Amphoteric acetates

Amine Oxide

Alkyl polyglucosides

Acylisethionates

Betaines and siltaines

 

 

Phosphate esters

 

 

 

Sarcosinates

 

 

 

Sulfosuccinates

 

 

 

Taurates

 

 

 

 
During 40’s and 50’s the detergent market was primarily captured by the dodecyl benzene (DDB), a product formed by alkylation of Benzene with propylene tetramer in a hard detergent alkylation unit. It was found, however, that the branched structure of the alkyl group was responsible for the poor biodegradability of the detergent, and the linear alkyl Benzene (LAB) was introduced in the early 60’s have substantially replaced its counter parts. 

Although Linear alkyl benzene is the major detergent being used due its low cost as derived from petroleum feed,  other surfactants used widely are fatty alcohol sulphates(FAS), Fatty alcohol ether sulphates[FES), fatty alcohol ethoxylates (AE). 

Fatty Alcohols

There has been rapid growth in the use of fatty alcohols due its low toxilogical profile and safe use, continued substitution of soap by alcohol based surfactants in the personal care industry, strong sales of laundary liquids that use higher levels of alcohol based surfactants, displacement of LAS surfactants by alcohol based surfactants, the substitution of alkyl phenol eythoxylates by alcohol based surfactants[ Brent, 2004].the global market for fatty alcohol has shown significant growth. Oleochemical route to alcohols starting from vegetable/animal oils and fats has dominant share(70%) of global capacity of about 3.3 million  tones synthetic alcohol produced from petrochemically derived ethylene  still continues to have a about 30% share  

Classification of Detergent

Anionic Detergents:  

The detergency of the anionic detergent is vested in the anion. The anion is neutralized with an alkaline or basic material, to produce full detergency . Typical anionic detergents are alkylbenzenesulfonates. There are three kinds of anionic detergents: a branched sodium dodecylbenzenesulfonate, linear sodium dodecylbenzenesulfonate, and soap. The alkylbenzene portion of these anions is lipophilic and the sulfonate is hydrophilic. Two varieties have been popularized, those with branched alkyl groups and those with linear alkyl groups.  

Cationic Detergents:  

The detergency is in the cation, which can be a substantially sized molecule. Strong acids are used, such as hydrochloric acid to produce the CI anion as the neutralizing agent although in essence, no neutralization takes place in the manufacturing process. Cationic detergents are similar to the anionic ones, with a hydrophobic component, but instead of the anionic sulfonate group, the cationic surfactants have quaternary ammonium as the polar end. The ammonium center is positively charged. 

Ethoxylates:Ethoxylates are compounds that have long hydrocarbon chains, but terminate with (OCH2CH2)nOH group. These groups are not charged, but they are highly hydrophilic owing to the presence of many oxygen centres.

Non-Ionic or Zwitterionic Detergents: This detergent consists of no inonic constituents which are ionically inert. The vast majority of all non-ionic detergents are condensation products or ethylene oxide with a hydrophobe. This grop of detergents is enormous, and the permutation endless. These are characterized by their (net) uncharged, hydrophilic head groups. They are based on polyoxyethylene (i.e. Tween, Triton and Brij series), Chaps, glycosides (i.e. octyl-thioglucoside, maltosides), bile acids such as DOC, lipids (HEGAs), or phosphine oxides. Zwitterionic detergents possess a net zero charge arising from the presence of equal numbers of +1 and -1 charged chemical groups. 

Basic Components of Detergent 

  • Detergent (Linear alkyl benzene sulphonate)
  • Builders: Phosphate (Sodium tripolyphosphate boost detergent powder), citrates, silicates, carbonates, zeolite
  • Filters and Processing Aids: Sodium carbonate, sodium sulphonate
  • Corrosion inhibitors: Sodium silicate
  • Anti redeposition agent: Carboxy methyl cellulose
  • Fabric Brightners: Fluoroscent dyes
  • Bluing: Improve whiteners by counteracting natural yellowing tendency
  • Antimicrobiol agents: Carbinilides, salicylanilides
  • Enzymes: Decompose or alter the composition of soil and render the particles more easily removable.

Some of the enzymes used in detergent are protease,amlases,liapse and celolases. The enzymes catalyses the breakdown of chemicalds through addition of water and helps in the removal of soils. Polymers and enzymes play important role in improving the detergency. Polymers  help in soil removal, prevent insoluble salt incrustation work as anti-soil re-deposition, inhibit dye transfer. Use of optical brightner  enhance the brightness and whiteness. processing aids when added to slurries of detergent powder  improve stability and homogeneity of slurries during mixing and reduce viscosity.

Linear Alkyl Benzene 

LAB basic raw material for detergent which was introduced in 60's as substitute for nonbiodegradable branched. Other surfactants are alcoholsulphate (AS), alcoholethoxylates (AE), Secondary alkane sulphonate, and alpha olefin sulphonates. LAB is a clear colourless liquid with characteristic odour. It is most widely used as the basic raw material for the manufacture of synthetic detergent. The linear alkyl Benzene produced from the C10 – C13 or C11 – C14 linear mono olefins are useful detergent intermediate and can be readily sulphonated to yield linear alkyl benzene sulphonates. These compounds constitute the “active” ingredients of many house hold detergents. They are surface active compounds (surfactants) which are combined with various builders (often inorganic salts) to make up a detergent formula.

 Linear alkyl benzene (LAB) is the basic raw material for production of most widely used detergent. Linear alkyl benzene was introduced as substitute for non biodegradable branched alkyl benzene. Process involved for LAB manufacturing is mention in Table M-IV 2.3.
Although LAB demand grew by 14% per annum during 1984-90, future demand in the country is projected to increase at a healthy growth rate of 7-8% as against 2-4% worldwide. India and China with huge population are the largest market for LAB LAB manufactured in India started in 1985 by IPCL in 1985 followed by Reliance Industries, Tamilnadu Petro products, Nirma, IOC. Application of LAB in India is mention in Table M-IV 2.2.

  • IPCL., Vadodara                                   : 50,000 TPA 
  • Reliance Industries Patal ganga            : 1,00,000 TPA 
  • Tamil Nadu Petro Products                  : 1,20,000 TPA 
  • Nirma Limited                                      : 75,000 TPA 
  • Indian Oil Corporation, vadodara        : 1,20,000 TPA 

                                                                        Total: 4,65,000

Table M-IV 2.2: LAB Application in India

Application

Share (%)

Consumer Cleaning Products

96.2

a. Synthetic detergents for fabric wash

90.1

Popular

68.3

Mid-Price

13.3

Premium

18.4

b. Scouring products

8.7

 

c. Liquid detergents

1.2

Industrial & Institutional Cleaners

1.3

Other Industrial Application

2.5

Non-surfactant Applications( varnish, cable fluid oil, lubricant)

0.1

Total

100

 

Prefractionation

To obtain C10-C14 range hydrocarbons from kerosene. (n-C10 to n- C13 for light and n-C11to n-C14 for heavy LAB).

The LAB unit requires a very specific feed in terms of carbon number. The prefractionation unit is designed to process a high purity C9 to C15 linear (normal) paraffin feed and to separate out a heart cut with the desired carbon number which will range from n C10 to n13 for light LAB and nc11 - nc14 for heavy LAB.

Hydrotreator

To remove sulphur compounds from feed stock

The purpose of this unit is to remove sulfur and nitrogen from the feed without greatly changing its B.P. If not removed, sulfur and nitrogen would poison the sieve in the Molex Unit.

Paraffin

Separation (Parex process)

To remove n-paraffins from kerosene by selective adsorption using molecular sieve. The UOP MOLEX process is an effective method of continuously separating normal paraffins from a stream of co- boiling hydrocarbons by means of physically selective adsorption.

The feed stock is separated into a high purity normal paraffin fraction at high recoveries and a non-normal paraffin.

Dehydrogenation

of Paraffins (Pacol Process)

Dehydrogenation of n-paraffins to olefins.

This process dehydrogenates the high purity linear paraffin feed stock from the pre-fractionation unit into the corresponding non-olefins, suitable as feed stock for the down stream detergent alkylate unit.

Alkylation

Alkylation of benzene with olefins to obtain LAB in presence of HF or

solid zeolite catalyst

This process alkylates benzene with linear olefins produced by the Pacol unit in the presence of HF acid catalyst to yield linear alkyl benzenes, LAB. The LAB thus produced can be readily sulfonated to form a suitable ingredient for many household detergents. This unit consists of three processing section :

  1. Alkylation Section
  2. Fractionation Section
  3. Acid Regeneration Section
Synthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical Engineering
Figure M-IV 2.1: Pre-fractionation Pre-Treatment and Paraffin Separation 

 

Synthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical Engineering

LAB Sulphonation

Figure M-IV 2.2: Manufacture of linear alkyl Benzene Sulponate 

Lab by Solid Acid Catalyst
 

The conventional catalyst AlCl3, H2SO4 and HF commercially used has the disadvantage of causing corrosion of equipment as well as waste production. There has been continuous search for development of non corrosive solid catalyst with similar catalytic properties. Some of the catalyst which have been developed are SiO2-Al2O3, H-,ontmorillonite, amberlyst, H-Y, HBeta, HM . World LAB capacity was around 3 million tones with nearly 85percent based on HF alkylation, 5percent on the aluminium chloride process, and 10 percent on the newly developed fixed bed alkylation. The fixed bed alkylation was first introduced on commercial scale in 1995 in Canada by Petresa. Figure M-IV 2.3 gives details for LAB Manufacture from Fixed Bed Technology.

Synthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical EngineeringSynthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical Engineering

Manufacturing of Detergents 

Detergents use a synthetic surfactant in place of the metal fatty acid salts used in soaps. They are made both in powder and liquid form. Most detergents have soap in their mixture of ingredients, but it usually functions more as a foam depressant than as a surfactant. Various processes in manufacturing of detergents is mention in Table M-IV 2.4.

A synthetic detergent, a sodium alkyl sulfate called sodium dodecylsulfate, will be prepared by reacting dodecyl alcohol (dodecanol) with sulfuric acid. 

Synthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical Engineering

The resulting dodecylsulfate is converted to the sodium salt by a reaction with sodium hydroxide. 

Synthetic Detergent And Linear Alkyl Benzene | Chemical Technology - Chemical Engineering

Table M-IV 2.4: Various Processes for Making Detergent 

Powder Detergent

Slurry making

The solid and liquid raw ingredientsare dropped into a large tank known as a slurry mixer. As the ingredients are added the mixture heats up as a result of two exothermic reactions: the hydration of sodium tripolyphosphate and the reaction between caustic soda and linear alkylbenzenesulphonic acid. The mixture is then further heated to 85oC and stirred until it forms a homogeneous slurry.

Spray drying

The slurry is deaerated in a vacuum chamber and then separated by an atomiser into finely divided droplets. These are sprayed into a column of air at 425oC, where they dry instantaneously. The resultant powder is known as ’base powder’, and its exact treatment from this point on depends on the product being made.

Post dosing

Other ingredients are now added, and the air blown through the mixture in a fluidiser to mix them into a homogeneous powder. Typical ingredients are

 

 

Soda ash (anhydrous Na2CO3), Bleach (usually sodium perborate. NaBO3), Bleach activator (e.g. tetraacetylethylenediamine), Enzymes (e.g. alkaline protease), Colour and perfume

Liquid Detergent

Soap premix manufacture

Liquid detergent contains soap as well as synthetic surfactants. This is usually made first as a premix, then other ingredients are blended into it. This step simply consists of neutralizing fatty acids (rather than fats themselves) with either caustic soda (NaOH) or potassium hydroxide.

Ingredient

mixing

All ingredients except enzymes are added and mixed at high temperature. The ingredients used in the liquid detergent manufacture are typically sodium tripolyphosphate, caustic soda, sulphonic acid, perfume and water. The functions of these ingredients have been covered above.

Enzyme

addition

The mixture is cooled and milled, and the enzymes added in powder form.

 
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FAQs on Synthetic Detergent And Linear Alkyl Benzene - Chemical Technology - Chemical Engineering

1. What is synthetic detergent?
Ans. Synthetic detergent is a cleaning agent that is made from synthetic or man-made materials. It is designed to remove dirt, grease, and stains from various surfaces such as clothing, dishes, and household items. Synthetic detergents are usually more effective than traditional soap and can be formulated to have specific properties such as high foaming, low foaming, or being suitable for use in high-efficiency washing machines.
2. What is linear alkyl benzene (LAB)?
Ans. Linear alkyl benzene (LAB) is a chemical compound commonly used as a key ingredient in the production of synthetic detergents. It is derived from the reaction between benzene and olefins, which are hydrocarbons with double bonds. LAB is a linear chain of alkyl groups attached to a benzene ring and is known for its excellent cleaning properties. It is widely used due to its biodegradability and compatibility with other detergent ingredients.
3. How are synthetic detergents made from linear alkyl benzene (LAB)?
Ans. Synthetic detergents are made from linear alkyl benzene (LAB) through a process called sulfonation. In this process, LAB is reacted with sulfuric acid to produce alkyl benzene sulfonic acid. This sulfonic acid is then neutralized with a base, such as sodium hydroxide, to form the corresponding salt, known as the detergent active compound. This compound can be further processed and combined with other ingredients to create different types of synthetic detergents with varying cleaning properties.
4. What are the advantages of using synthetic detergents over traditional soap?
Ans. Synthetic detergents offer several advantages over traditional soap. Firstly, they have superior cleaning power and can effectively remove tough stains, grease, and dirt. They also have better performance in hard water conditions compared to soap. Additionally, synthetic detergents are more compatible with modern washing machines, including high-efficiency models. They can be formulated to have specific properties, such as being low-foaming or suitable for sensitive skin. Moreover, synthetic detergents are generally biodegradable, reducing their impact on the environment.
5. Are there any potential health or environmental concerns associated with synthetic detergents and linear alkyl benzene?
Ans. While synthetic detergents and linear alkyl benzene (LAB) are generally considered safe to use, there are some potential concerns. High concentrations of synthetic detergents can irritate the skin and eyes, causing allergic reactions or dermatitis in some individuals. It is important to follow the recommended usage instructions and avoid excessive exposure. In terms of environmental concerns, the production and disposal of synthetic detergents can contribute to water pollution if not properly managed. However, many manufacturers have taken steps to improve the biodegradability and environmental impact of their products.
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