Assessment of two local plant dyes as colourants for petroleum products (petrol, kerosene and diesel) | Blazingprojects Postgraduate Thesis
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Assessment of two local plant dyes as colourants for petroleum products (petrol, kerosene and diesel)

 

Table Of Contents


  • Title Page                                                                                         iCertification                                                                                               iiDedication                                                                                         iiiAcknowledgement                                                                                     ivAbstract                                                                                           vTable of Contents                                                                             viList of Tables                                                                                   xList of Figures                                                                                   xiList of Appendices                                                                                     xii 

Chapter ONE

INTRODUCTION

  • 1.0    Introduction                                                                             1Dyestuffs 1Lawsonia inermis Plant 4Pterocarpus osun Craib plant 5Statement of the problems 5Objectives of the study           6Justification of the study 6CHAPTER TWO:
  • 2.0  Literature review                                                                     7Historical development 7Colour and constitution 9Nomenclature of dyes 17Classification of dyes 19Classification according to methods of application 19Classification according to chemical constitution 36Natural dyes 51Plant dyes 52Animal dyes 59Mineral dyes 61Uses of dyes 62Dyeing 65Mechanism of dyeing 65Natural dyeing principles 67Fastness properties 69Colour in textile industry 70Colour in petroleum industry 71CHAPTER THREE:Materials and methods 73Reagents 73Equipment 73Plant materials 74Extraction procedure 75Purification of the extracts 75Column chromatographic purification of osun extract                 76Vacuum liquid chromatographic purification of inermis extract76Solubility of the dyes in organic solvents 76De-colourization of petroleum products 77Spectroscopic analysis of the dyes 77Ultraviolet spectroscopy 77Infrared spectroscopy                                                           77Colour stability analysis of the dyes 78CHAPTER FOUR:Results and discussion 79Physical data of the dyes 79Solubility test of the dyes 80osun dye wavelengths of maximum absorption in petroleum products                                                                                     81inermis dye wavelengths of maximum absorption in petroleum products                                                                                 85Colour intensity of osun dye in petroleum products                   89Colour intensity of inermis dye in petroleum products               93Infrared spectra analysis of osun dye 97Infrared spectra analysis of inermis dye 98Discussion 98Contributions to knowledge                                                 101Conclusion                                                                           102References                                                                                         103Appendices                                                                                     110 

Thesis Abstract

Dyes from Pterocarpus osun Craib and Lawsonia inermis Linn. were extracted using ethanol and methanol respectively. The extracted dyes were subsequently purified using chromatographic methods. Purified pigments were characterized using Ultra-Violet Visible Spectrophotometer, Fourtier Transform Infrared Spectrophotometer and Lovibond Tintometer. The UV spectra of the dyes in petrol, kerosene and diesel showed presence of chromophores. The FTIR spectra of the dyes showed presence of phenolic O-H stretching and C=C of aromatic functional groups. The dye from Lawsonia inermis Linn. was remarkably stable in colouring petrol for a period of twenty-eight days but not in kerosene and diesel while the dye from Pterocarpus osun Craib was not stable. Thus, dye from Lawsonia inermis Linn. can be used as alternative source of colourant for petrol while the dye can not be used for the same purpose for kerosene and diesel due to their instability. The dye from Pterocarpus osun  Craib cannot be used because of their instability. They are not remarkably active in colouring any of the petroleum products (petrol, kerosene and diesel).

 


Thesis Overview

<p> </p><p><strong>1.0 &nbsp; &nbsp; Introduction</strong></p><p><strong>1.1 &nbsp; &nbsp; Dyestuffs</strong></p><p>Today, in the world of growing environmental consciousness, natural colourants have attracted the attention of everyone1,2. The alarming rate of high use of synthetic dyes which causes carcinogenicity, mutagenicity, green house effect &nbsp;and are very expensive have provided an urgent approach to the use of natural plant dyes in the petroleum industry3,4. &nbsp;Natural plant dyes have been discovered accidentally and their uses have become so much a part of man’s customs that it is difficult to imagine modern world without dyes. The art of dyeing spread widely as civilization advanced5.</p><p>A dye is an organic compound composed of chromophore (the coloured portion of the dye molecule) and auxochrome (which slightly alters the colour) .The auxochrome makes the dyes soluble and is a site for bonding material. Dyes are molecules that can be dissolved in water or some other carrier so that they will penetrate the material6.</p><p>For a dye to be usable in colouring materials, it must be highly coloured; must yield goods that are “colour fast”, or resistant to colour change or loss during use and care; and must be soluble or capable of being made soluble in water or other medium in which they are applied, or they must themselves be molecularly dispersible into the material7.</p><p>The archaeological evidences have shown that dyeing has been extensively carried out for over 5000 years, particularly in India and Phoenicia8,9. The dyes were obtained from animal, vegetable or mineral origin, with no or very little processing. They include cochineal obtained from dried cochineal insect, brazil-wood from <em>caesalphia</em>&nbsp;plant, madder from the roots of <em>Rubia tinctoria</em>, Tyrian purple from purple snail (Murex bandaris), and indigo from the leaves of <em>Indigofera tinctoria</em>&nbsp;and many more. The plant parts that were used are roots, bark, leaves and wood10,11. Colourant improve the appearance, culinary effect and promote acceptability of substrates12.</p><p>The colour index categorizes all colouring matters according to their application and characteristics. Dyes can also be classified according to their chemical structure, shade, fastness, etc13.</p><p>With advances in science and technology, dyes synthetically produced from coal tar and petroleum sources, and natural dyes have almost been replaced by synthetic dyes. The most significant discovery in synthetic dyes occurred in the 19th century when the first man-made dye was synthesized by a Chemist, William Henry Perkin14. He produced the first basic azine dye known as mauveine [1] (Mauve). The production of this dye opened door for the synthesis of many classes of dyes including the first azo dye, Congo Red [2].</p><p>&nbsp;</p><p>Dyes are used to colour petrol, kerosene and diesel in order to improve their appearance, as well as for identification of grade, type of use or merely as a trademark of the manufacturer15. Solvent dyes used to colour refined petroleum products is to be able to differentiate between petrol, diesel, kerosene and jet fuels16. Petroleum dyes help in identification of fuel adulteration. They also help to create differentiation in various petroleum products such as leaded and unleaded, high and low octane gasoline, high and low sulphur diesel and aviation fuels attributes17. Other reasons for dyeing fuel, such as for aviation, supports the fuelling process itself, to ensure that the right type of fuel is used in the correct aircraft – as the consequences of getting this wrong can be disastrous18. However, solubility as well as hue and fastness are the major determinant factors for dyes used in these petroleum products.</p><p>Other uses of dyes include in the colouration of food items, inks, metals, leather, textiles and paper. Other areas of use include photographic paper, as indicator in chemical analysis and biological stain and as point leak detection19. With the increasing demand in petroleum industry and various sectors of the economy for dyes and pigments coupled with the high cost of synthetic dyes importation, there is need to explore plant dyes and their applications will improve the socio-economy and artistic development of the nation.</p><p>Synthetic dyes have been used over the years in the petroleum industry for colouring petroleum products. This helps in check-mating adulteration, identification of grade or quality and for aesthetic purposes in the oil industry. The cost and toxicity (carcinogenity and mutagenity) of the synthetic dyes have shifted attention for alternative dyes which are cheap and environmental friendly. Dye of <em>Pterocarpus osun</em>&nbsp; Craib have been used to colour petroleum products (petrol, kerosene and diesel) but their stabilities have not been studied or reported while dye of <em>Lawsonia</em>&nbsp;<em>inermis</em>&nbsp;Linn. have not been used to colour petroleum products.</p><p><em>Lawsonia inermis</em>&nbsp;(Henna) plant belongs to the family lythraceae. The plant grows at temperatures higher than 11 oC and needs about 5 years to mature. It has a height of 8-10 feet 20-22. The leaves have been extensively used for centuries in the Middle East, the Far East and Northern Africa as dye for nails, skin, hands, hair and textile23. Henna is also used in treating skin problems, headache, jaundice, amebiasis and enlargement of the spleen. Leaves of <em>Lawsonia inermis</em>&nbsp;provide an important cosmetic dyes and so on 24-25. The major pigment in henna leaf is lawsone [2-hydroxyl-1,4-naphthaquinone (C10H6O3)], having a fast-dyeing property26. <em>Lawsonia inermis</em>&nbsp;has been well investigated phytochemically by various researchers. The occurrence of β-sitosterol glucoside, flavonoids, quinoids, naphthalene derivatives, gallic acid, coumarins, and xanthones in lawsonia leaf has been reported27-32.</p><ul><li><strong><em>Pterocarpus osun</em></strong><strong>&nbsp;Craib plant</strong></li></ul><p><em>Pterocarpus osun</em>&nbsp;belongs to the family papilionaceae and it occurs throughout the tropics. The Nigerian species are trees of about 30 meters tall, with a girth size of about 2.4 meters with spreading crown and with bright yellow and usually alternate leaflets. It has distinct pinkles on twigs and young branches. The fruits are dark brown and velvety when young, with short soft and often stickly pickles mostly surrounding the centre33,34. The wood of <em>Pterocarpus osun</em>&nbsp;contains 16 % of red colour pigments, which are insoluble in water but soluble in organic acid and alkali6. <em>Pterocarpus osun</em>&nbsp;are medically useful for superficial skin diseases such as eczema and has also been used as an active ingredient in soap35,36. Other active constituents of<em>&nbsp;Pterocarpus osun</em>&nbsp;are tannins, phenols, saponin and flavonoids37-40.</p><ul><li><strong>Statement of the problems</strong></li></ul><p>Synthetic dyes are no longer universally attractive in colouring petroleum products due to the numerous challenges (carcinogenic, mutagenic, toxic, cost and so on) associated with their use. The use of colourants for petroleum products cannot be avoided because it helps in quick, visual differentiation of petrol, kerosene and diesel. It also helps in identification of grade or quality of petroleum products. Presently, the dyes used by Nigerian refineries are imported, coded and used without the source of import disclosing the exact chemical names and composition either to the refinery staff or to the public. The chemical nature used of dyes in imported petroleum products are also shrouded in secrecy. These have necessitated the search for local alternative sources of colourants for petroleum products in the oil industry.</p><p>This study has the following objectives:</p><ol><li>To assess the stability of the heartwood of <em>osun</em>&nbsp;and young leaf of <em>L. inermis</em>&nbsp;plant extract respectively, as colourants for petroleum products (petrol, kerosene and diesel).</li><li>To determine alternative sources of colouring petroleum products rather than using synthetic dyes, and</li></ol><ul><li>To determine the stability of the dye colours when added to petroleum products.<ul><li><strong>Justification of the study</strong></li></ul></li></ul><p>Natural dyes have been widely reported to be non-toxic, environmentally friendly and less expensive. Therefore, the assessment of two local plant dyes (<em>P. osun </em>and<em>&nbsp;L. inermis</em>) as colourants for petroleum products is justified.</p> <br><p></p>

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