PRODUCTION OF DETERGENT POWER USING. LOCALLY SOURCED POTASSIDMHYDROXIDE BY BABALOLA OLA WALE (2003/17499EH) IN PARTIAL FULFILMENT OF THE REQUIREMENT FOR THE? A WARD OF BACHELOR'S DEGREE IN ENGINEERING (B.ENG) DEPARTMENT OF CHENUCAL ENGHmRWNG FEDERAL UNWERSITY OF TECHNOLOGY MINNA. NOVEMBER 2007
CERTIFICATION.. I hereby certify that this project little "production of Detergent powder using locally sourced potassium hydroxide" was carried out by BABALOLA OLA W ALE with Registration Number 2003/17499EH. It was supervised, read, and approved for the partial fulfillment of the, requirement for the award of Bachelor's degree in Chemical Engineering. PROJE T SUPERVISOR ENGR. M.U. GARBA, 2:.Ell~+~_- DATE -------------------------------------- HEAD OF DEPARTMENT DR. M.O. EDOGA DATE -------------------------------------- EXTERNAL SUPERVISOR ----------------------- DATE : 11 ':-'
DECLARATION This project was carried out by BABALOLA OLA W ALE under the supervision of Engr. Garba in the department of Chemical Engineering,., Federal University of Technology Minna. BABALOLA OLA W AE 2003/17499EH iii
DEDICATION This work is dedicated to the almighty God for his benevolence, Kindness, love and mercy toward me since the beginning of my academic pursuit till date. IV
ACKNOWLEDGEMENT With a heart of gratitude, I wish to thank the Almighty God for always being by my side.. I also appreciate my amiable'supervisor Engr. Garba for his support towards the successful completion of this work. My appreciation also goes to my Head of Department Dr. Edoga for his support academically. My unflinching, gratitude goes to my parents for their parental support. My sincere gratitude goes to my love, Titilope and my brothers and sister, Tunde, Kunle, Deji and Remi. My appreciation also goes to all my able lecturers in Chemical Engineering Departments Federal University of Technology Minna. v
TABLE OF CONTENTS Title Page... 1 Certification... 11 Declaration......................... 111 Dedication... ~..... IV Ackt1.owledgement... v Table of Content... '... vi-vii Abstract... V11 CHAPTER ONE 1.0 IN1RODUCTION... 1-3 1.1 Aims atld Objectives... 3 1.2 Justification...,... 4 1.3 Scope, of work... 4 CHAPTER TWO 2.0 ~I~~~~~~... 5 2.1 History of Detergent... 5 2.2 Terminology-... _....-... 5-6. " 2.3 Composition....,... 6 2.4 Detergent choice... ~... 7 2.5 Types of Detergents...,... 7-8 vi
2.6 Raw materials detergents... :... 8 2.7 Functions of raw materials... ~...... 9, ' 2.8 Clean.ing action... II!'... "...... 9 2.9 Production process... ~... 9-10 2.10 Structure of Detergents... 10-11 CHAPTER THREE 3.0 MATE~SEQUIPMENT ANDMETHOD... 12 3.1' Materials!Reagent...... 12 3.2' Equipment... ~... 12~13 3.3 Procedures... ;... 13-16 CHAPTER FOUR 4.0 RESULT AND DISCUSSION... 17 4.1 Results... 17-18 4.2 Discussion ofresult..... 18-19 CHAPTER FIVE ' 5.0 CONCLUSION AND RECOMMENDATION... 20 5.1 Conclusion... 20 5.2 Recommendation... 20 5.3 Reference...,... 21 5.4 Appendices... 22-25 Vll
ABSTRACT, In this work, detergent powder was produced using KOH (obtained from banana leaves), palm kernel oil and linear alkyl benzene sulphonate as base stock. The resultant detergent powder produced has lather volume test of 3.8cm 3 lower than Global soap and detergent pic. Specification of 4-4.5. The % active detergent 35.2 was higher than the industrial standard of 20-24% and the percentage moisture of 28 was higher than the standard of 18-20%. viii
CBAPTERONE 1.0 INTRODUCTION Detergent is one of the essential commodities required daily for domestic and industrial needs in the laundry services sector and for cleaning utensils, toilets, floors and industrial plants. Detergent is a substance that aid in the removal of dirt. It is also known for enhancing the cleansing actiotlof water. According to the dictionary, a detergent is defined as a compound or a combination of compounds, that is put to use for cleaning process.. Detergent is used for removing dirt in fabric and other.materials. and may be in the powder or liquid form.. A detergent is an emulsifier which penetrates and breaks up the oil film that bind dirt particles and wetting agent which helps to float off. Emulsifier molecules have an oil- like, non -polar portion which is drawn into the oil, and a polar group that is water soluble; by bridging the oil- water interface, they break the oil into dispersible droplets (emulsion). As a surfactant, a detergent decreases the surface tension of water and helps it penetrate soil., Soap, the sodium salt of long- chain fatty acids is a good detergent although it has some disadvantage, e.g. it forms insoluble compounds with certain salts found in hard water thus diminishing its effectiveness and in acid solutions, frequently used in it is deco~posed (thus precipitating the free fatty acid of the soap)., Soap was the principal detergent until superseded,in 1954 by Synthetic detergents (Syndets) which unlike soap, do not form insoluble products with the calcium in hard water. 1
Most Syndets are of the anionic type, that is, sodium salts, of alkyl sulphon3;tes or sulphates. Alkyl benzene sulphonates (ABS) with branched Carbon chains were found to persist in waste water and have be~n replaced by linear alkyl benzene sulphonates (LAB) which are biodegradable by bacterial action. Anionic detergents are best for water -absorbing fibres such as cotton, wool, and silk. Non-ionic detergents are polyethers made by combination of ethylene oxide and a l2-carbon lauryl alcohol. They are used for water - repelling "permanent press" fabrics, and their low - foaming property is desirable for automatic washes. Cationic syndets are quarternary base compounds. They are more expensive, but some are germicidal; some are used as fabric softeners and as good metal cleaners. Detergents must contain alkaline "builders" to blind dissolved metal ions and support emulsification; Sodium pyrophosphate or polyphosphate were preferred, because of low cost and high cleaning effectiveness. However, when discharged with laundry waste water,these compounds supply nutrient to phosphate - deficient lakes and streams and thus lead to eutrophication; and their use is now banned by law. Less harmful, but less effective builders such as sodiunicarbonate are now widely used in detergents. Many additives are use in detergents to provide scent, brightening- (using through fluorescent action), or bleaching action. Biodegradability is essential for detergents; it ensures that components of detergents will be broken down by bacterial action before undesirable after - effects can occur. Non biodegradable detergents can prevent effective bacterial action 2
in septic tanks and 'swage treatment plants, and can cause undesirable persistent foaming in rivers. Any of various surfactants (substances that reduces surface ten~ions) used dislodge dirt from soiled surfaces and retain it in suspension, allowing it to be rinsed away. The term usually refers to synthetic substances and excludes soaps. The characteristics features of a molecule of any detergent are a hydrophilic (water - attracting) end and a hydrophilic (oil attracting) end. In ironic detergents, the hydrophilic property is conferred by the ionized part of the molecule. In non- ionic detergents, hydrophilicity is based on the presence of multiple hydroxyl groups or other hydrophilic groups. Besid~s those used in water to clean dishes and laundry, detergents that functions in other solvents are used in lubricating oils, gasolines, and dry - cleaning solvents to prevent or remove unwanted deposits. They are also used as emulsifying agents. 1.1 AIM AND OBJECTIVE The aim of this work is to produce detergent powder. 1.1.2 OBJECTIVE The objective of this work is to produce detergent powder using potassium hydroxide from banana leaves instead of an industrially produced sodium hydroxide. 3