Background
The oil and gas industry is the means for Nigeria’s economy. The upstream oil and gas industry remains the most important sector of the country’s economy.
Statistical Energy Survey by BP 2012 estimated that “Nigeria had oil reserves of 37.2 billion barrels at the end of 2011, equivalent to 41.4 years of current production and 2.25 % of the world’s reserves while the country produced an average of 2457.3 thousand barrels of crude oil per day in 2011, which represented 2.93% of the world” (MBendi, 2013).
According the BP Statistical Energy Survey 2011, Nigeria had 5.29 trillion cubic metres of gas. However, a poor infrastructure has affected the distribution of the gas. It flares 75 percent and re-injects 12 percent of the gas produced. However, the country wanted a zero percent flare by 2010. The government also intended to increase revenues from export of gas by 50 percent.
The country’s downstream oil and gas industry also has important roles in the sector. However, it faces a myriad of challenges, such as fire, poor management, corruption, sabotage, vandalism, and poor maintenance. As a result, such refineries have never “operated above 40 percent capacity” (MBendi, 2013).
Therefore, the country cannot meet the internal demand for oil and gas, and it has turned to imports in order to supplement the shortage. The country has an active petrochemical industry based on its refining abilities and demands.
The current situation of Nigeria is risky for production and proper management of the sector. For instance, Nigeria experiences political unrest, border problems, and inadequate funding from the government coupled with corruption. Such problems have affected the promotion of best practices in the oil and gas industry of Nigeria.
Information technology in the oil and gas industry
Technological developments in the oil and gas industry have transformed the sector in advanced areas like the US (NaturalGas.org, 2011). There are innovations that have changed the oil and gas industry in many OPEC member states. Consequently, the roles of technology in oil and gas industry, particularly in explorations and productions have had deep impacts on the potential of the sector.
The applications of information technology (IT) and other innovations in exploration and production of oil and gas have equipped the sector with the required practices and equipment for continuous efficiency in production of oil and gas to meet the world demands.
The aims of the IT and other innovations are to ensure safe exploration and production and environmental friendly practices. Usages of such technologies in exploration and production aim to mitigate challenges that arise from ‘unconventional’ sources of natural gas like shale rock.
Specifically, agendas of IT in the oil and gas industry have been to provide superior and integrated database with high-end visualisation and communication capabilities for oil and gas information management.
Such innovations are also useful in managing petroleum geological information and improving observation of the sector. The overall aim is to improve production through efficient drilling quality that protects the environment, and reduce costs.
Some major oil and gas firms like Chevron, Shell, Mobil, and BP also work in Nigeria. They have applied information technology in their practices in the sector. The involvement and activities of these firms remain extensive and critical for the success of the country’s oil and gas industry. Therefore, it is fundamental to understand the impact of information technology in the oil and gas industry in Nigeria.
Study problems
The cost of oil and gas exploration in Nigeria is high due to a myriad of challenges in the sector. For instance, there is a slow rate of gathering data that are fundamental for seismic activities, reservoir characteristics, and monitoring.
Moreover, availability and sharing of data are also challenges in the sector. As a result, the cost of drilling has increased. However, IT in the industry should enhance efficiency, protect the environment, eliminate emissions, and improve identification, mapping, and understanding of source rocks.
Objectives
This study aims to indentify impacts of information technology in the oil and gas industry of Nigeria.
Specifically, the study shall show how adoption of information technology in the oil and gas industry in Nigeria has affected various areas.
- To investigate the effect of information technology on cost of production
- To assess the level of efficiency as a result of adopting information technology in the industry
- To highlight impacts of information technology on risk mitigation and management in the oil and gas industry
- To investigate effectiveness of information technology in production processes
- To assess the environmental impacts of adopting information technology the oil and gas industry of Nigeria
These are the most critical considerations for the use of information technology in the Nigerian oil and gas industry.
Relevance of the research
Limited data exist on the impact of information technology in the oil and gas industry in Nigeria. However, data should be available in the volatile oil and gas industry of Nigeria that faces many challenges. Besides, the increase in demands for oil and gas has created opportunities for advanced practices in the sector.
Studies in information technology can help in developing the oil and gas industry in Nigeria by providing a basis for drafting technology policies and procedures for the industry. Therefore, the research shall provide useful information for oil and gas firms, government agencies, industry stakeholders, and researchers in the oil and gas industry.
Review of available literature
Studies about the use and impacts of information technology in the oil and gas industry of Nigeria are rare. Currently, there has been growing attention for alternative energy that can replace fossil fuels. However, the oil and gas industry has changed its practices in order to meet challenges of providing clean and cost-effective energy.
In this regard, the use of information technology has been the most important element in the dynamic oil and gas industry because it has assisted in mitigating the environmental impacts and increasing efficiency in exploration, production, and supply of oil and gas (Edwards, Ishaq and Johnsen, 2010).
At the global level, the oil and gas industry is diverse because of various government policies, uneven distribution, and technological capabilities of workers.
Players in the oil and gas industry have expressed their concerns about external risks, which may disrupt the oil and gas industry. For instance, Thales notes that exploration and drilling activities have become dangerous in many oil fields, including Nigeria (Thales, n.d).
Therefore, the need for advanced physical and data security is paramount. Moreover, field operations also need risk assessment in order to mitigate risks. The process needs recognition of potential risks, the creation of boundaries, evaluation of security consequences, and developing business recovery plan.
The oil and gas industry participants also note that industry characteristics are important for planning. For instance, oil and gas firms require abilities to operate in volatile frontiers, they need new skills and knowledge, understand dynamic government regulations, and the need for hydrocarbon fuels.
Moreover, the changes and competitive industry has favoured national oil companies. As a result, multinational firms face challenges of energy source availability as focus shifts to new oil fields and emerging markets.
A number of changes that affect the oil and gas industry require firms to act now in order to position themselves for future operations.
Solutions to these challenges are in leveraging information technologies in order to enhance development of vibrant oil and gas resources, improve recovery from current fields, eliminate environmental challenges, and find alternative sources of energy. Clear strategies for mitigating such challenges require a focus on information technology.
First, develop performance management in the oil and gas business units, costs, assets, and various processes based on best practices within the field. Second, the information technology should address the enterprise-wide risks by developing governance systems that can continuously recognise and control various risks in the firm and various locations.
Third, information technology should address operational excellence in the industry. This can happen through creating value to the environment, enhancing quality, and enabling cost reduction strategies. Third, the solution should also focus on people management.
The aim is to align the right personnel with the right goals, activities, and processes. Information technology has to enhance decision-making in these processes (Roge, Rydl and Simpson, 2004). Finally, the effective use of information technology should assist the industry to create adaptive business model, which can integrate various value chains, operation units, technologies, and partners.
Research methodology
This section provides the framework of collecting the required data to meet research objectives. Howe and Eisenhardt note that in the final analysis, “methodology must be judged by how well it informs research purposes, more than how well it matches a set of conventions” (Howe & Eisenhardt, 1990).
In this regard, these authors argue that the research methodology must provide data that answer the research questions, has coherent background assumptions, and methods applied work well enough to provide credible results.
Research method
We have various methods of addressing data collection in a study. These methods address both design and measurement challenges in a study. In this research, we shall apply both qualitative and quantitative methods to gather the required data. Qualitative approach shall address non-numerical factors of impacts of information technology in the oil and gas industry in Nigeria.
Thus, it shall provide descriptive and interpretative information. On the other hand, quantitative research shall address numerical information from quantitative research variables. It shall permit the researcher to have high-levels of confidence in making normal inferences (Trochim, 2006).
Target of research
This research targets managers in information technology departments in government agencies, private oil and gas firms, and industry stakeholders in Nigeria. This group has valuable information about the application and impacts of information technology in the oil and gas industry.
Data collection method
The study shall utilise a variety of data collection methods. Survey questionnaires shall provide the researcher with the flexibility of using telephone, mail, Internet, or paper to gather information from various respondents. In addition, there shall also be interviews by telephone where appropriate.
The aim of the interview is to get information in in-depth about impacts of IT in the industry. The researcher may also use Web survey tools like e-mail or online in order to save costs and time.
The researcher shall ensure validity of measurement tools i.e., all research instruments shall measure what they purport to measure. Thus, the study instruments are specific to the study.
The researcher shall use these approaches in order to gather data from sufficient respondents.
Sampling
This is a mixed research method. However, the method for sampling shall be purposive (non-random) sampling. The sample shall be large enough to allow the researcher to generalise where necessary.
The large sample shall provide opportunities for hermeneutic analysis of gathered data (Bazeley, 2002). According to Bazeley, we can perform such analysis because of computer programmes that can perform data analysis from both qualitative and quantitative sources.
Purposeful sampling will not attempt to gather data from the representatives of the samples. Instead, the researcher shall focus on respondents who can provide rich information on impacts of information technology on the oil and gas industry in Nigeria.
Such data are useful for in-depth analysis of the study issue. Thus, the researcher shall purposefully focus on IT managers in oil firms and government oil agencies in order to gather a great deal of data about the study purpose.
Sample size
The researcher shall rely on samples from ‘information rich’ sources in multinational firms. The sample size shall also include government agencies in charge of the oil and gas in Nigeria.
The researcher is yet to identify the total sample size from the total target organisations.
Data Analysis
The researcher shall clean data after collection. They researcher shall organise the results based on themes of impacts of IT on the oil and gas industry. For qualitative data, the research shall code common themes, whereas quantitative data shall be numerically organised (Miles and Huberman, 1994).
The researcher shall use SPSS data analysis software in order to analyse data from mixed sources (Pallant, 2005). This shall provide opportunities for the researcher to analyse qualitative data after coding. The researcher shall also present descriptive statistics for quantitative data and use analytical framework approaches for qualitative data (Wolcott, 1994).
The researcher shall also ensure credibility of the data collected for analysis. This process requires the researcher to describe any factor that may the outcome of the study (Patton, 2002). This ensures internal validity in quantitative study. Likewise, the researcher shall ensure external validity of the study by ensuring transferability. The researcher shall describe research contexts and assumptions.
The researcher shall then present the study outcome through presentations to the professors, institutions, students, and other related stakeholders.
Ethical issues
The researcher shall observe all principles of ethics in research as Beauchamp and Childress highlight (Beauchamp and Childress, 2001). The researcher shall also present the research to the Institutional Review Board (IRB) for approval before the study. Moreover, the researcher shall gain informed consents of all research participants before the study begins (Pimple, 2006). The research shall not harm any human subject.
The researcher shall ensure:
- Respect for the autonomous choices of persons
- Confidentiality
- Protection of all participants
- Not collection of personal information without the consent of the respondent
- Opportunity to withdraw
- Professional code of ethics of the university
Research Timetable
Reference List
Bazeley, P 2002, Computerized data analysis for mixed methods research, Sage, Thousand Oaks, CA.
Beauchamp, T & Childress, F 2001, Principles of biomedical ethics, Oxford University Press, New York, NY.
Edwards, S, Ishaq, O and Johnsen, Ø 2010, Oil and Gas 2030: Meeting the growing demands for energy in the coming decades, IBM Global Business Services, Somers, NY.
Howe, K & Eisenhardt, M 1990, ‘Standards for qualitative (and quantitative) research: A prolegomenon’, Educational Researcher, vol. 19, no. 4, pp. 2-9.
MBendi 2013, Oil and Gas in Nigeria: An Overview. Web.
Miles, M and Huberman, A. 1994, Qualitative Data Analysis – An Expanded Sourcebook, Sage Publication, London.
NaturalGas.org 2011, Natural Gas and Technology. Web.
Pallant, J 2005, SPSS Survival Manual, Ligare, Sydney.
Patton, Q 2002, Qualitative research and evaluation methods, 3rd edn, Sage, Newbury Park, CA.
Pimple, K 2006, Protection of human subjects in non-biomedical research: A tutorial. Web.
Roge, J, Rydl, L and Simpson, C 2004, ‘Wireless Technology uses in the Oil and Gas Industry’, Issues in Information Systems, vol. 5, no. 2, pp. 666-672.
Thales. (n.d). Security Solutions for the Oil & Gas Industry. Web.
Trochim, W 2006, The Research Methods Knowledge Base, 2nd edn, Atomic Dog Publishing, Cincinnati, OH.
Wolcott, H 1994, Transforming qualitative data: Description, analysis, and interpretation, Sage, Thousand Oaks, CA.