PRODUCTION OF SURFACE ACTIVE AGENTS (LAUNDRY SOAP) IN CHEMISTRY LABORATORY
Table Of Contents
- Cover page Title page Certification Dedication Acknowledgement Abstract Organization of the work Table of Contents
Chapter ONE
INTRODUCTION
- 1.1Background to the study
- 1.2Statement of problems
- 1.3Purpose of the study
- 1.4Significance of the study
- 1.5Scope of the study
- 1.6Research hypothesis
- 1.7Limitations to the study
- 1.8Definition of terms
Chapter TWO
LITERATURE REVIEW
- 2.1The history of soap production
- 2.2How does soap clean
- 2.3The chemistry of soap production
- 2.4Detergency
- 2.5Effect of detergent and soap on hard water
- 2.6Mechanism of detergency
- 2.7Industrial manufacture of soap
- 2.8Manufacture of detergents
- 2.9Industrial and domestic use of soaps and detergents
Chapter THREE
RESEARCH METHODOLOGY
- Experimental procedure
- 3.1Materials needed for laundry soap
- 3.2Measurements and concentrations of needed materials for laundry soap production
- 3.3Equipments needed
- 3.4Experimental method of laundry soap production
- 3.5Testing of the soap.
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- Discussion of results
- 4.1General precaution
- 4.2Nature of raw materials
- 4.3The hardening process
- 4.4Possibilities of large scales production
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- Conclusion and Recommendations
- 5.1Summary
- 5.2Conclusion
- 5.3Recommendations
- 5.4Suggestions for further research REFERENCES
Project Abstract
In this project work, the researcher analysed the properties of surface-active agents (laundry soap) to be an excellent cleanser because of its ability to remove stains from surfaces. The researcher work was based mainly on internet print out, textbooks and experimentation. Experiment was carried out using some raw materials to produce this surface-active agent (laundry soap) of which the result formed the basis of this study and determined the conclusion, which in turn informed the recommendations.
Project Overview
1.1 BACKGROUND TO THE STUDY
Soap is a universal surface-active
agent and is use in many household and industries. There are many types
of soap based on the method of production and the materials used. Soap
can be prepared in a small scale or large scale. The small-scale
process can be done either at home or laboratory following the
scientific and technical process. The making of soap can be quite
interesting if done with knowledge and adequate skills, which a student
in a higher institution of learning should be able to accomplish.
Early
attempts at soap production relied on ash production by burning various
vegetable materials, as a makeshift source of alkali. For example, in
Spain, the plant salsola was burned to produce an alkaline ash called
barilla, this used in conjunction with locally available olive oil,
offered a good quality soap which by salting-out or “graining†boiled
liquor with brine allowed the soap to float to the surface leaving lye,
vegetable colouring and impurities to settle out. This produced what was
probably the first white hard soap.
1.2 STATEMENT OF PROBLEM
The following statements of problems are hereby formulated to assist in this research work of surface-active agents production.
1. What raw materials are required to produce high quality laundry soap?
2. What are the steps to follow in producing the laundry soap
3. How can the soap produced be tested
4. How durable is the soap produced.
1.3 PURPOSE OF THE STUDY
The purpose of this research work is
to produce high quality laundry soap that can be used at home by family
members. The soap produce should have no unpleasant effect on skin;
instead it should have a pleasant odour and scent with suiting cosmetic
effect on the skin when used for washing. Soap produce under laboratory
condition with the masses of the materials adequately ascertained.
1.4 SIGNIFICANT OF THE STUDY
The research work is significant for the following reasons:
1. It will help to inculcate laboratory skills and techniques on the researcher, which can later help in the real work.
2. Since
chemistry is an experimental discipline, it means the science students
should carryout research based on laboratory method.
1.5 SCOPE OF THE STUDY
This
research work is limited to laboratory scale process, which is far
better than local method. However, it does not make use of industrial
scale since it is not an industrial research.
1.6 RESEARCH HYPOTHESIS
The following hypothesis were formulated to assist the production of laundry soap:
1. The
raw materials required to produce high quality laundry soap are palm
kernel oil, (P. K. oil), caustic soda, Colourant/Deystuff, perfumes and
sodium silicate.
2. The
steps to follow in the production of high quality laundry soap or any
other surface active agents is to ensure accurate measurement of the raw
materials and that non of the steps should be ignored.
3. The
soap produced can be tested by shaking it in water to check if it
lathers. Equally, it can be tested by using it to wash the hands to
ensure that it does not cause irritation to the skin when been used for
washing.
4. The soap produced can last over duration of three months.
1.7 DEFINITION OF TERMS
DETERGENTS: These are soap-like emulsifier that contains a sulfonate-SO3-, sufate SO3-, or phosphate group instead of a carboxylate group-used for removing soil from clothes, dishes and other materials.
EMULSIFYING AGENT/EMULSIFIER: This is a substance that coats the particles of a dispersed phase and prevents coagulation of colloidal particles.
HARD WATER: A water containing Fe3+ Iron (III) ion, magnesium ions (Mg2+) which forms precipitate with soap.
SOAP:
This is an excellent cleanser that can suspend oil and dirt in such a
way that it can be carried away with water. It can equally be defined as
a universal surface active agent that removes dirt’s from surfaces like
skin, clothes etc. which is used in many household and industries.
SURFACE SURFACTANT/SURFACE-ACTIVE AGENT:
This is a substance which when present at a low concentration in a
system has the property of adsorbing onto the surfaces or interface of
the system, thereby altering the surface or interfacial free energies of
the surfaces (or interfaces) e.g. soap, detergents, motor oils etc.