ALTERNATIVE RAW MATERIAL SOURCES FOR CEMENT PRODUCTION

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objectives of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Cement Production
  • 2.2Traditional Raw Materials for Cement Production
  • 2.3Environmental Impact of Traditional Raw Materials
  • 2.4Alternative Raw Materials for Cement Production: Definition and Types
  • 2.5Case Studies of Alternative Raw Material Usage
  • 2.6Benefits and Challenges of Using Alternative Raw Materials
  • 2.7Technological Advances in Alternative Raw Material Utilization
  • 2.8Economic Considerations of Alternative Raw Material Sourcing
  • 2.9Global Trends in Alternative Raw Material Usage
  • 2.10Future Prospects and Research Directions

Chapter THREE

SYSTEM DESIGN AND IMPLEMENTATION

  • 3.1Research Methodology Overview
  • 3.2Research Design and Approach
  • 3.3Data Collection Methods
  • 3.4Sampling Techniques
  • 3.5Data Analysis Procedures
  • 3.6Research Ethics and Considerations
  • 3.7Validity and Reliability Measures
  • 3.8Limitations of the Research Methodology

Chapter FOUR

SYSTEM TESTING AND EVALUATION

  • 4.1Analysis of Alternative Raw Material Utilization in Cement Production
  • 4.2Comparative Analysis of Traditional vs. Alternative Raw Material Usage
  • 4.3Environmental Impact Assessment of Alternative Raw Materials
  • 4.4Economic Feasibility of Alternative Raw Material Sourcing
  • 4.5Technological Innovations in Alternative Raw Material Processing
  • 4.6Challenges and Solutions in Implementing Alternative Raw Material Strategies
  • 4.7Case Studies and Best Practices in Alternative Raw Material Utilization
  • 4.8Recommendations for Industry Adoption and Policy Implications

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusions Drawn from the Research
  • 5.3Implications for Cement Industry and Sustainability
  • 5.4Contributions to Knowledge and Future Research Directions
  • 5.5Recommendations for Stakeholders and Decision-makers

Project Abstract

It is generally known that cement is produced from limestone, mar/clay and gypsum by the following three basic process- wet semi- wet and dry process.The cost of exploiting the limestone the major raw material constitute about 50% of the production cost which results in the high cost of cement. It therefore becomes imperative to bring down the cost of cement by investigating into alternative source of raw material for cement production and hence this project.From literature, rice husk ash, Ukpo day,& Nsu day contain the basic mineral constituents which limestone has. Rice husk was burnt temperatures of 5000c, 6000c, 7000c, and 8000c. The best ash was obtained at a temperature of 7000c,. The above material were also analyzed to determine their mineral constituents. The result shown that rice husk contains little aluminum (Al203) and no lime (Ca0). To make up for these mineral constituents, Upo day which is rich in aluming was blended with lime(Ca0)-a bye product from gas plant and the three minerals were blended using the method of lime saturation factor. A blending ratio of 70% lime 20% PHA and 10% Alumina mixture (Ukpo day) was used. The mixture was mixed dry by dry process and burnt in a furnace at a temperature of 12000c. The resulting mass known as dinker was ground with 5% gypsum. The cement obtained gave a comprehensive strength of 2N/mr2.DEFINITION OF TERMSOPC – Ordinary Portland cementLSF – Lime saturation factorQuicklime – Calcium oxide Ca0Raw meal – Secondary raw material that is fed into the kiln for burningRaw mill – A tube like machinery where the grinding of raw material takes place.ASTM – American society for testing materials.Hydraulic modulus – The ratio of lime (Ca0) to silica, Alumina and ferric oxides.Clinker – Intermediate raw material and the product from the kiln.C3S – Tricalcium silicateC2S – Dicalcium silicateC3A – Tricalcium AluminateC4AF – Tetra calcium Aluminoferrite

Project Overview

INTRODUCTION1.1 BACKGROUND OF THE STUDYCement is a complete mixture of mineral substances that gradually harden when mixed with water. It is the product of the reaction of lime with the oxides of silica alumina and iron. It is used in the construction of industry as a blending material. Some builders regard it as the key engineering material for construction purposes. Many allied construction materials such as asbestos, culverts concrete seals, concrete poles, cement blocks etc are derived from cement and they also play very important roles in the construction industry.For the average Nigeria, a major life ambition is to own a living house cement, a key raw material has ruined to ‘Gold’ as has become a topical issue. Just like iron, steel and petrochemical, cement is equally a major spring board for industrialization. This quest for industrialization has resulted to increase in demand with the consequent increase in the cost of cement.One of the reasons adduced for the exorbitant cost of cement is the scarcity of raw material. This situation arises as a result of its fast depletion which is not replaced.
Another reason adduced for the exorbitant cost of cement is the high cost of the exploration and exploitation of the raw material. To mine the chief raw material for the manufacture of cement- limestone requires a lot of machines, plants and explosives. A lot of money is also paid as compensation to the communities that own the land. All these expenditures lead to the high cost of cement. This study was therefore to investigate alternative source of raw material for the production of cement.
These investigation was geared towards industrial waste and Agricultural residues. Agricultural residues are composed of organic constituents such as cellulose, lignin, fibre and small amounts of crude protein and fat. In addition, they contain a rage of minerals which silica, Alumina and iron oxide. The residue itself cannot be used as cement replacement and it is the ash that is obtained form the preprocessing that is of interest. Two factors require for constituents of the ash. The ash content is important because it indicates the amount of reside which need to be burnt; that is the yield. D..J COOK (1980) states that rice husk have shown by far the greater yieled of ash than other plants like sorghum, corn leaf blade, Bamboo nodes, (Inner portion) bangasse, lantana leaf and stem and rice straw.
For every 1000kg of rice husk burnt, 200kg of ash are produced. Hence it is not surprising that rice husk emerged as the agricultural that with the greatest potential as cement replacement material.
One the other hand, lime is a by product of gas companies. It is readily available at no cost.
The utilization of these raw material for cement product production is very altercative in developing countries like ours. This is because it does not only reduce demand on Portland cement but it also provides cement in rural areas of the country especially in rice growing areas which rice husk is found in large quantities and constitute environmental nuisance.1.2 PURPOSE OF THE STUDYThe present high cost of cement and the exorbitant cost of residential house occasioned by high cost of raw material exploitation, energy, population explosion and development have necessitated intensification into the search for alternative raw material for the production of this product. The aim of this project therefore was to bring down the cost of cement by the use of alternative raw materials form industrial and agricultural waste.1.3 SCOPE OF THE PROJECT
The intention was to
1) Source and analyze the following raw materials rice husk lime (waste product from Niger gas company) Ukpo clay, Nsu clay and pulverized fuel Ash (PEA)
2) Obtain the best condition for preprocessing.
3) Compounding the raw mix.
4) Burning
5) Peterning the physical characteristics.1.4 SIGNIFICANCE OF THE STUDYOn completion of the study, the result would be of importance to the Government and Entrepreneurs who may wish to go into the production of cement. The increased investments in this area will bridge the gap between demand and supply and bring down the cost of cement the reduced price of cement will catalyze infrastructure development and majority will be able to own a living house.Another importance of the project is that it will serve as the starting point for the production of other types of cement known as blend cement. The study will also help to provide cement in rural areas typically of those traditionally deprived of cement. In this way small-scale businesses possible.
Since the industrial and agricultural waste are waste which causes environmental pollution and create problem with disposal its utilization would not only control environmental employment opportunities to our young school leaver.The research would also be of immerse benefit to future researchers and student who would have the interest of studying similar subjects. by the following three basic process- wet semi- wet and dry process.The cost of exploiting the limestone: the major raw material constitute about 50% of the production cost which results in the high cost of cement. It therefore becomes imperative to bring down the cost of cement by investigating into alternative source of raw material for cement production and hence this project.From literature, rice husk ash, Ukpo day,& Nsu day contain the basic mineral constituents which limestone has. Rice husk was burnt temperatures of 5000c, 6000c, 7000c, and 8000c. The best ash was obtained at a temperature of 7000c,. The above material were also analyzed to determine their mineral constituents. The result shown that rice husk contains little aluminum (Al203) and no lime (Ca0). To make up for these mineral constituents, Upo day which is rich in aluming was blended with lime(Ca0)-a bye product from gas plant and the three minerals were blended using the method of lime saturation factor. A blending ratio of 70% lime 20% PHA and 10% Alumina mixture (Ukpo day) was used. The mixture was mixed dry by dry process and burnt in a furnace at a temperature of 12000c. The resulting mass known as dinker was ground with 5% gypsum. The cement obtained gave a comprehensive strength of 2N/mr2.

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