Evaluation of nigerian gas production & electricity generation from natural gas using regression anaylsis
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 Nigerian gas production
- 2.2History of electricity generation from natural gas
- 2.3Importance of natural gas in energy production
- 2.4Trends in Nigerian gas production
- 2.5Challenges in electricity generation from natural gas
- 2.6Regulatory framework for gas production and electricity generation
- 2.7Impact of gas production on the environment
- 2.8Technological advancements in gas production and electricity generation
- 2.9Economic implications of gas production and electricity generation
- 2.10Future prospects of Nigerian gas production and electricity generation
Chapter THREE
RESEARCH METHODOLOGY
- 3.1Research design
- 3.2Population and sampling
- 3.3Data collection methods
- 3.4Variables and measures
- 3.5Data analysis techniques
- 3.6Research ethics
- 3.7Reliability and validity
- 3.8Limitations of the research methodology
Chapter FOUR
DATA PRESENTATION AND ANALYSIS
- 4.1Analysis of Nigerian gas production data
- 4.2Regression analysis of gas production and electricity generation
- 4.3Correlation between gas production and electricity generation
- 4.4Factors influencing gas production and electricity generation
- 4.5Comparison of actual and predicted electricity generation
- 4.6Implications of the regression analysis
- 4.7Discussion on the findings
- 4.8Recommendations for future research
Chapter FIVE
SUMMARY, CONCLUSION AND RECOMMENDATIONS
- 5.1Conclusion
- 5.2Summary of the project research
- 5.3Implications for the energy sector
- 5.4Contributions to existing knowledge
- 5.5Recommendations for policymakers
- 5.6Areas for further research
Thesis Abstract
Abstract
This research project focuses on evaluating Nigerian gas production and electricity generation from natural gas using regression analysis. Nigeria is one of the leading producers of natural gas in Africa, with significant potential to increase electricity generation capacity through the utilization of this abundant resource. The study aims to analyze the relationship between gas production and electricity generation in Nigeria over a specified period, with the primary objective of assessing the impact of gas production on electricity output. The research methodology involves collecting historical data on gas production and electricity generation in Nigeria from relevant government agencies and energy sector reports. Regression analysis is employed to model the relationship between the two variables, considering factors such as gas reserves, investment in infrastructure, and government policies affecting the energy sector. The regression model allows for the identification of key variables that influence electricity generation from natural gas, providing insights into the drivers of energy production in the country. The findings of the study are expected to contribute to the understanding of the dynamics between gas production and electricity generation in Nigeria. By quantifying the relationship through regression analysis, the research aims to provide valuable information for policymakers, energy companies, and investors seeking to optimize the utilization of natural gas resources for electricity generation. The results of the analysis can inform decision-making processes related to energy policy, infrastructure development, and investment strategies in the Nigerian energy sector. Overall, this research project addresses an important aspect of Nigeria's energy landscape by evaluating the link between gas production and electricity generation. The regression analysis offers a robust method for examining this relationship, allowing for the identification of significant variables and trends that impact energy output in the country. The outcomes of the study are expected to contribute to the ongoing efforts to enhance energy security, expand electricity access, and promote sustainable development in Nigeria's energy sector.
Thesis Overview
<p>
</p><p><strong>INTRODUCTION</strong></p><p><strong>1.1. Background of the study</strong></p><p>Nigeria is a nation that has been blessed with mineral resources ranging from solid minerals to crude oil deposits; right from the northern part of Nigeria to the southern part of Nigeria is littered with amazing natural deposits. Chief among these is the crude oil. Crude oil is largely deposited in the south southern part of Nigeria.Besides crude oil, Nigeria is blessed substantial deposit of natural gas. Although the consumption of natural gas increased steadily in the late 1970s and 1980s, and in 1990 constituted more than 20 percent of Nigeria’s total energy from commercial sources, the quantity of gas used was only a fraction of what was available. In 1988, with the largest natural gas reserves in Africa, Nigeria produced 21.2 billion cubic meters per day, with 2.9 billion cubic meters used by the National Electric Power Authority (NEPA) and other domestic customers, 2.6 billion cubic meters used by foreign oil companies, and 15.7 billion cubic meters (77 percent) wasted through flaring. Small amounts of gas were also consumed by petroleum producers to furnish power for their own operations and as fuel for some equipment. Domestically, there remained a large potential market for bottled liquid petroleum gas (LPG), which was produced primarily at the Kaduna refinery.In the early 1990s, Nigeria was undertaking a major project to market liquefied natural gas (LNG) (instead of flaring gas produced in the oil fields) by building a gas liquefaction plant on the Bonny River situated in Rivers state. Four companies signed an agreement in May 1989 to implement this plan: NNPC (60 percent share)), Shell (20 percent), Agip (10 percent), and Elf Aquitaine (10 percent), with plant construction scheduled to begin in 1991. Other aspects of the project involved Nigerian government construction of gas pipelines for distribution to domestic, residential, and commercial users and a supply of gas to the NNPC chemical complex at Port Harcourt. Much of the gas was intended for export, however, and the first LNG tanker was launched in October 1990s through the cooperative efforts of Nigeria and Japan.The importance of gas production to an economy cannot be over emphasized. One of the essential benefits of gas generation which determines how the economy of any nation would perform is power generation. Since the discovery of natural gas in Nigeria, power generation has its fair share of inconsistencies. One would have expected that the discovery of gas would have naturally led to the improvement in power generation. Some say it is as a result of the incompetency of government others say the government should be exempted. The truth remains that power generation using the natural gas has not been consistent enough to improve. We strongly believe that there may be a distinct relationship between gas production and power generation ion Nigeria.</p><p><strong>1.2. Statement of the general problem</strong></p><p>The problem of power generation has remained a persistent problem in Nigeria. A lot has been done to reviving the sector but the issue has persistent which has led us to examining the relationship between gas production in Nigeria and electricity generation.</p><p><strong>1.3. Aims and objectives of the study</strong></p><p>The following are the aims for embarking on this research work</p><ul><li>To examine the nature of the relationship between gas production and electricity generation in Nigeria.</li><li>To identify the challenges of constant electricity generation in Nigeria.</li><li>To be able to predict the level of electricity generation in the future from the data of the past years on gas production available to us.</li><li>To recommend ways of ensuring adequate electricity generation in Nigeria.</li></ul><p><strong>1.4. Significance of the study</strong></p><p>The outcome of this study would be of tremendous benefit to researchers, policy makers and the government in addressing the electricity generation issue in Nigeria.</p><p><strong>1.5. Scope of the study</strong></p><p>This research work is restricted to the evaluation of Nigerian gas production and electricity generation from natural gas from 1999-2014<strong>.</strong></p><p><strong>1.6. Research Questions</strong></p><ul><li>Is there a relationship between gas production and electricity generation in Nigeria?</li><li>If yes, what type of relationship exists between gas production and electricity generation in Nigeria?</li><li>What are the challenges confronting constant electricity generation and supply in Nigeria.</li><li>Can the level of electricity generation of the future years be adequately predicted from the past records of gas production and electricity generation in Nigeria?</li></ul><p><strong>1.7. Research hypotheses</strong></p><p><strong>Hypothesis 1</strong></p><p><strong>H0: </strong>there is no significant relationship between gas production and electricity generation in Nigeria.</p><p><strong>H1: </strong>there is a significant relationship between gas production and electricity generation in Nigeria.</p><p><strong>Hypothesis 2</strong></p><p><strong>H0: </strong>Gas production does not significantly influence the level of power generation and supply in Nigeria.</p><p><strong>H1: </strong>Gas production significantly influences the level of power generation and supply in Nigeria.</p><p><strong>1.8. Definition of terms</strong></p><ul><li><strong>Electricity:</strong>a form of energy resulting from the existence of charged particles (such as electrons or protons), either statically as an accumulation of charge or dynamically as a current.</li><li><strong>Natural gas:</strong>Natural gas is a naturally occurring hydrocarbon gas mixture consisting primarily of methane, but commonly including varying amounts of other higher alkanes, and sometimes a small percentage of carbon dioxide, nitrogen, and/or hydrogen sulfide.</li><li><strong>Generation:</strong>the production or creation of something.</li><li><strong>Natural resources: </strong>Mineral Resources can be defined as the concentration of material of economic interest in or on the earth’s crust, whereas Ore Reserves are the parts of a Mineral Resource that can at present be economically mined.</li><li><strong>Mineral:</strong>A mineral is a naturally occurring substance, representable by a chemical formula that is usually solid and inorganic, and has a crystal structure.</li><li><strong>Crude oil:</strong>Crude oil, commonly known as petroleum, is a liquid found within the Earth comprised of hydrocarbons, organic compounds and small amounts of metal. While hydrocarbons are usually the primary component of crude oil, their composition can vary from 50%-97% depending on the type of crude oil and how it is extracted.</li><li><strong>Gas flaring:</strong>the burning of natural gas that is associated with crude oil when it is pumped up from the ground. In petroleum-producing areas where insufficient investment was made in infrastructure to utilize natural gas, flaring is employed to dispose of this associated gas.</li></ul>
<br><p></p>