Production of cassava of starch from cassava

 

Table Of Contents


  • <p> <strong>

Chapter ONE

INTRODUCTION

  • <br>
  • 1.0Introduction<br>
  • 1.1Scope and objective<br>

Chapter TWO

LITERATURE REVIEW

  • <br>
  • 2.1History of cassava<br>
  • 2.2Environmental condition for cassava growth<br>
  • 2.3Cultural method of cultivation/harvesting<br>
  • 2.4Harvesting/storage<br>
  • 2.5Nutritive composition of cassava<br>
  • 2.6Method of cassava processing<br>
  • 2.7Toxicity of cassava processing and it’s material<br>
  • 2.8Starch chemistry<br>
  • 2.9Physical properties of starch<br>2.
  • 9.1Chemical properties of starch<br>2.
  • 9.2Starch processing<br>2.
  • 9.3Hydrolysis of local starch<br>

Chapter THREE

RESEARCH METHODOLOGY

  • <br>
  • 3.0Production of starch from cassava (textile starch)<br>
  • 3.1Production of starch from cassava (edible starch)<br>
  • 3.2Drying process<br>3.
  • 2.1Determination of ash content<br>3.
  • 2.2Determination of moisture content of fresh cassava,<br>textile and edible starch<br>3.
  • 2.3Determination of cyanide content of fresh crushed<br>cassava textile and edible starch<br>3.
  • 3.4Preparation of 5% of Na0H solution<br>3.3.
  • 4.1Tytration experiment with AgN03 (Silver Nitrate)<br>

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • <br>
  • 4.0Result and Discussion<br>
  • 4.1Table ash content<br>4.
  • 2.1Determination of moisture content sample A<br>4.
  • 2.2Sample b (textile starch)<br>4.
  • 2.3Sample C Edible starch<br>4.
  • 3.1Determination of cyanide content sample A<br>4.
  • 3.2Edible starch (sample B)<br>4.
  • 3.3Textile starch (sample C)<br>

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • <br>
  • 5.0Conclusion and Recommendations<br>
  • 5.1Conclusion<br>
  • 5.2Recommendation<br>Appendix A<br>Appendix b<br>Appendix C<br>Appendix d<br>Graps<br>References</strong> <br></p>

Project Abstract

<p> The fresh cassava were sources from Idodo in Nkanu Local Government of Enugu state. The weight of the cassava tuber were taken to be 31.50kg. After peeling and washing, it was divided into two equal parts which was 21.13kg for production of sample A and sample B respectively (edible and textile starch) which weighed 13.1kg.<br>During this process, the temperature were obtained at 700c (617.4R). And the other properties of the cassava samples were carried out, such as moisture content of the fresh cassava 59.82% (Sample A), Textile starch 52.02% (Sample B) and edible starch (Sample C). the average mean percent of ash content of Sample A, edible starch was 2.6% while that of (Sample B, fresh crush cassava was 2.1%.<br>Also determination of cyanide content of fresh cassava 14.13ml. Textile 5.0ml and edible starch 4.48ml. <br></p>

Project Overview

<p> <strong>1.0 INTRODUCTION</strong><br>Cassava was known to the world before the discovery of America. The Portuguese settlers found the native Indian’s in Brazil growing the cassava plant and Pierre Marty wrote in 1490 that the poisonous roots of a “Yucca” were used in the preparation of bread. Cassava were introduced to the Westerner const of Africa in the sixteenth centuries while the word topioca derived from tapioca. The tipi Indian’s name the liquid which is extracted from the tubers and made into pellets called tipicoet. The edible tubers, which serves as food in many tropical countries as well as source of starch, it also serves as principal food for workers in minning and industrial centers in most countries too.<br>Cassava is a single species, manihot esculent crante (synonymous with mainhot utilissmapolhe) it is a tuberous dicotyledous plant, belonging to the botanical family of Euphorbiacca, and like most other members of that family. The cassava plant contain latifiers and produces latex. The cassava tuber contains and mainly water and carbohydrate with waters having a greater proportion and a small significant amount of cyanogenic glucoside (prussic acid) of all the constituents of cassava tubers. Two major factors limits its utilization. In the form of the fresh (unprocessed) tuber. The first is that the unprocessed tuber has relatively high amount of prussic acid, which is highly poisonous to human and animal when consumed. The second factor is that fresh cassava tubers cannot be stored more than a few days after harvest. The tuber begins to deteriorate rapidly as a result of enzymatic process in the presence of water contained in the tuber.<br>It is an important food crop in tropical countries such as Brazil, Nigeria, Indonesia and Thailand. The roots of the cassava are rich in starch and are consumed as human food or animal feed. Small amount of it’s root are converted into industrial products. Today Thailand are the world leaders of starch production from cassava.<br><strong>TABLE 1<br>BELOW IS RECENT WORLD PRODUCTION OF CASSAVA NOT IN THE YEAR 2001.<br>Country<br>Volume (million)<br>Nigeria<br>33,854,000<br>Brazil<br>24,481,356<br>Thailand<br>18,283,000<br>Congo<br>15,959,000<br>Indonesia<br>15,800.00<br>Ghana<br>7,845,440<br>Tanzania<br>5,757,968<br>India<br>5,800,00<br>Mozambique<br>5,361,974<br>China<br>3,700,900<br>Others<br>175,617,389<br>SOURCE: FAD STA, 2001</strong><br><strong>SCOPE AND OBJECTIVE</strong><br>The objective of this project is based on the production of starch from cassava, using a manual instrument called greater to open all the tuber cell. So that the starch granules are easily released and extracted through hydraulic press, or sieve (mesh). However it has been observed that cassava flour produced through different process have different quanlities.<br>SCOPE<br>The following analysis were carried out cyanide content, production of Edible and textile starch, Ash content of edible and fresh crushed cassava, moisture content of fresh crushed cassava, textile starch and edible starch. At the end of the work, the result of these analysis were shown. <br></p>

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