Reserve estimate of imeri bitumen deposit (a case study of imeri, ogun state, nigeria) – geology project topics – complete project material
Table Of Contents
Chapter ONE
INTRODUCTION
- 1.1Introduction
- 1.2Background of Study
- 1.3Problem Statement
- 1.4Objective 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 Bitumen Deposits
- 2.2Historical Perspective
- 2.3Geology of Bitumen Deposits
- 2.4Economic Importance of Bitumen
- 2.5Extraction and Processing Techniques
- 2.6Environmental Impact of Bitumen Mining
- 2.7Global Bitumen Market Trends
- 2.8Government Policies and Regulations
- 2.9Technological Advancements in Bitumen Industry
- 2.10Challenges Facing Bitumen Exploration
Chapter THREE
RESEARCH METHODOLOGY
- 3.1Research Design
- 3.2Data Collection Methods
- 3.3Sampling Techniques
- 3.4Data Analysis Procedures
- 3.5Research Instrumentation
- 3.6Ethical Considerations
- 3.7Research Limitations
- 3.8Research Validity and Reliability
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Overview of Imeri Bitumen Deposit
- 4.2Geological Characteristics of Imeri Area
- 4.3Reserve Estimation Techniques
- 4.4Field Survey Findings
- 4.5Laboratory Analysis Results
- 4.6Comparison with Other Bitumen Deposits
- 4.7Economic Viability Assessment
- 4.8Environmental Impact Assessment
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Summary of Findings
- 5.2Conclusions
- 5.3Recommendations
- 5.4Implications for Future Research
- 5.5Contribution to Knowledge
- 5.6Practical Applications
- 5.7Lessons Learned
- 5.8Closing Remarks
Project Abstract
The Imeri bitumen deposit located in Ogun State, Nigeria, is a promising area for bitumen exploration and development. This study focuses on estimating the reserve potential of the Imeri bitumen deposit using geological methods. The research involves field mapping, core sampling, laboratory analysis, and reserve calculation techniques to assess the quantity and quality of the bitumen reserves in the area. Field mapping was conducted to understand the geological setting of the Imeri bitumen deposit. The study area was surveyed to identify the different rock formations, structures, and bitumen occurrences. Core samples were collected from various depths within the deposit to analyze the lithology, porosity, permeability, and bitumen content of the rock formations. Laboratory analysis included petrographic studies, geochemical analysis, and physical property measurements to characterize the bitumen-bearing rocks. The reserve estimate was calculated using volumetric methods based on the volume of the bitumen-bearing rock formations, porosity, and oil saturation. The data obtained from field mapping, core sampling, and laboratory analysis were integrated to determine the total volume of the bitumen reserves in the Imeri deposit. The quality of the bitumen reserves was assessed based on the API gravity, viscosity, sulfur content, and other physical and chemical properties. The results of the reserve estimate indicate a significant potential for bitumen production in the Imeri deposit. The calculated reserves suggest that the area holds substantial quantities of bitumen that can be economically extracted and processed. The quality of the bitumen reserves meets industry standards, making them suitable for various industrial applications. This study provides valuable insights into the reserve potential of the Imeri bitumen deposit and serves as a basis for further exploration and development in the area. The findings contribute to the understanding of the geology and resource potential of the Imeri deposit, highlighting its significance as a strategic asset for the bitumen industry in Nigeria. Overall, this research enhances knowledge of the bitumen resources in the Imeri area and offers a foundation for future investment and exploitation of the deposit. The findings support sustainable development and utilization of the bitumen reserves, contributing to the economic growth and industrial advancement of the region.
Project Overview
<p>1.0 INTRODUCTION<br><br>The Petroleum industry has become the mainstay of the overall economy of Nigeria, accounting for about 90 per cent of the country’s foreign exchange earrings, about 20 per cent of the Gross Domestic Product, and about 85 per cent of the Federal Government collectable revenue. The demand for this back gold is fast increasing worldwide. Figure 1.1, from Purvin & Gertz’ most recent Global Petroleum Market Outlook study, shows how petroleum product demand has grown since 1995 and how it is expected to continue to grow through 2015. The study shows a 1.7 % per annum growth in worldwide demand and that this growth rate will continue over the next 15 years. The Purvin & Gertz study also states that the growth in crude supplies from 60 million barrels per day in 1990 to 75 million barrels in 2005 will continue up to 95 million barrels per day in 2020. The current growth in transportation fuel demand is outpacing the supply of traditional crude oil sources.<br><br>This gap can be filled through increased production of non-traditional hydrocarbon deposits, such as Canadian oil sands, Venezuelan heavy oils. It is apparent that increasing amounts of petroleum will come from nonconventional sources. Hence the need for the development of our heavy crude deposits. Therefore, in order to ensure continuity and orderly development of the industry, the Federal Government put in place a Petroleum Policy. Prominent among the objectives of the Policy is the development of the large deposit of tar sands in the country.<br><br>The extensive geological studies carried out largely by the staff of the University of Ife (now Obafemi Awolowo University) IIe Ife, confirmed the existence of the natural bitumen in Western Nigeria in commercial quantities. Similarly, the limited engineering studies of the naturally occurring bitumen in the Okitipupa area of Ondo State. Also, reference to various reports, newspaper publications and other information media in Nigeria within the last two decades is a pointer to the fact that petroleum crude, generally a major source of bitumen, has been aptly described as Nigeria’s “black gold”. But can this “black gold” concept of petroleum crude oil be extended to bitumen? Perhaps the second phase of Nigeria’s economic breakthrough is round the corner!<br><br>It is in the light of the foregoing that the title of this research work has been chosen to read: “the reserve estimate of Bitumen deposit in Imeri, Southwestern Nigeria?” to find out if the natural bitumen can be mined in commercial quantity as a nonconventional petroleum to support Nigeria’ s economic sector .<br><br>At the end of this project, we hope to be able to find solution to some pertinent questions like:<br><br>1) What is the meaning of bitumen?<br><br>2) What is its reserve estimate of bitumen in the study area?<br><br>3) What is its economic viability?<br><br>1.2 AIM AND OBJECTIVE<br><br>This project work aimed at determining:<br><br>The reserve estimate of bitumen deposit in Imeri, Ogun State, South-western Nigeria.<br><br>Its objective is to use this reserve in evaluating its commercial viability.<br><br>1.3 SCOPE AND LIMITATION<br><br>This project work covers:<br><br>The determination of the depth of burial, thickness and aerial extend of deposition of bitumen in the study area.<br>The estimation of bitumen reserve using the values gotten from above in the study area.<br>As a result of the short duration coupled with financial constraint this project will be limited to the study area.<br><br>1.4 LOCATION AND ACCESIBILITY<br><br>The study area lies within latitude 06046´-06049´N and longitudes 003058´-003060´E, on an area extent of approximately eighteen square kilometers (~18sq. km), a sedimentary terrain in the Dahomey Basin of Southwestern, Nigeria. The village has good road network that link it to the express. (Fig. 1.2)<br><br>1.5 RELIEF AND DRAINAGE<br><br>Imeri is almost a flat plain ground with extremely low relief with elevation between 100ft and 250ft above sea level, the drainage pattern is sub-dendrite-like with an average annual temperature of 310C and mean annual rainfall of 1200mm to 2300mm.<br><br>1.6 CLIMATE AND VEGETATION<br><br>The climate of Imeri is of moderately high humidity, the vegetation include shrubs, grasses and forest with agriculture being the predominant occupation of the dwellers.<br><br>1.7 DURATION<br><br>This project work is expected to be done within six (6) months in accordance with the school calendar and should be ready latest September, 2011.<br><br>1.8 JUSTIFICATION<br><br>This project work when completed will boost the nation’s economy by preserving our conventional oil reserves while attention is focused on bitumen development, if all the recommendations proposed are implemented.<br></p>