Browsing by Author "Mogbo, O.C."

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    Floating Gas to Power (FGTP) Plants: Proposed Policy Framework for Nigeria
    (Scientific Research, 2020-12) Mogbo, O.C.; Joel, O. F.; Ikiensikimama, S.S.
    Floating Gas to Power (FGTP) has been identified as a frontier concept for stranded gas field development. Instead of exporting gas onshore, the gas is used offshore for generating electricity as an end product. Offshore to Onshore electric power transmission is usually by marine or subsea cabling. The electricity is eventually distributed into a large utility power grid. Recent literature has showed the potential economic viability of the FGTP option in the Offshore Nigeria space, whilst demonstrating that FGTP viability will be strongly impacted by levers controlled by Nigerian government policy. The main objective of this paper was to broadly identify, evaluate and recommend the necessary government policy directions which would allow FGTP projects to contribute to macroeconomic growth through valorization of hitherto stranded gas resources offshore Nigeria. The paper examined the Nigerian Gas Master Plan, the Power Master plan and the Petroleum Investment Bill (PIB), amongst other extant government policies and regulations to clarify the extent to which the policies and frameworks may have to be amended in order to accommodate the FGTP within the range of gas monetization options recognized in the Nigerian gas and Power policy space. The study surmises that the implementation of FGTP as an economically viable investment option offshore Nigeria would necessitate deliberate legislation, as well as economic ring fencing with a sufficiently strong legal and policy framework. Such measures would support the growth of the nascent gas monetization option as well as strengthen foreign investor confidence in the longevity of policy formulations pertaining to FGTP offshore Nigeria. Regarding the power industry element: It was also found that the sustainable offtake of FGTP generated electricity strongly depends on the formation and implementation of National Power policies will allow a robust and modern national power grid to function, and allow for efficient and effective recovery of investor’s funds. Finally, this work highlights the attractiveness of the FGTP option in the Offshore Nigeria space: it could prove an economical and environmentally friendly option for simultaneously solving the energy generation and monetization of stranded gas reserves challenges. If properly harnessed, it could potentially generate huge revenue for the government, resolve the epileptic power supply problem in Nigeria and create numerous employment opportunities.
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    Floating Gas to Power (FGTP): A Screening Study for Stranded Gas Fields Offshore Nigeria
    (International Journal of Engineering Science Invention (IJESI), 2021-08-12) Mogbo, O.C.; Joel, O. F; Ikiensikimama, S.S
    : Floating Gas to Power (FGTP) has been identified as a frontier concept for stranded gas field development. Instead of converting dry gas to LNG (FLNG Concept), the gas is used offshore for generating electricity as an end product. Offshore to Onshore electric power transmission is usually by marine or subsea cabling. The electricity is eventually distributed into a large utility power grid. As an emerging economy with a population expected to keep growing, the question of how to bridge Nigeria’s continuously increasing power deficit has become topical. Furthermore, offshore Nigeria, stranded gas reserves are found in difficult locations and in such quantities as to render their exploitation through conventional means economically unfeasible. The main objective of the study was to perform a Niger delta basin-wide screening: identify and rank Nigeria’s most prospective stranded offshore gas fields and perform a first-order evaluation of the scale of FGTP possible contribution to alleviating the country’s power deficit. A conventional exploration risking approach was used to evaluate, rank and risk offshore Niger Delta stranded gas fields for hydrocarbon fluid type, location, water depths, and distance from shore, terrain, accumulation size, and average reservoir properties. All relevant data public domain data have been analyzed. 765 fields in the Niger Delta basin have been evaluated and ranked. 79 of these fields were revealed to possess good to very good FGTP Project potential. A shortlist of the most prospective fields was then enumerated and ranked. Based on the results of this study, we believe we have localized some of the more interesting "sweet-spots" for FGTP Offshore Nigeria, from an industry perspective. Technological developments, the gas price and the continued increase in demand for energy will define if and when these resources will be exploited on a large scale. Furthermore, the study shows that the FGTP option in the Offshore Nigeria space deserves thorough scrutiny and further studies to evaluate its techno-economic feasibility. It could prove an economical and environmentally friendly option for energy generation. If properly harnessed, it could resolve the epileptic power supply problem in Nigeria, generate huge potential revenue for the government, and create numerous employment opportunities
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    Floating Gas to Power (FGTP): A Screening Study for Stranded Gas Fields Offshore Nigeria
    (2020-12) Mogbo, O.C.; Joel, O. F.; kiensikimama, S.S.
    Floating Gas to Power (FGTP) has been identified as a frontier concept for stranded gas field development. Instead of converting dry gas to LNG (FLNG Concept), the gas is used offshore for generating electricity as an end product. Offshore to Onshore electric power transmission is usually by marine or subsea cabling. The electricity is eventually distributed into a large utility power grid. As an emerging economy with a population expected to keep growing, the question of how to bridge Nigeria’s continuously increasing power deficit has become topical. Furthermore, offshore Nigeria, stranded gas reserves are found in difficult locations and in such quantities as to render their exploitation through conventional means economically unfeasible. The main objective of the study was to perform a Niger delta basin-wide screening: identify and rank Nigeria’s most prospective stranded offshore gas fields and perform a first-order evaluation of the scale of FGTP possible contribution to alleviating the country’s power deficit. A conventional exploration risking approach was used to evaluate, rank and risk offshore Niger Delta stranded gas fields for hydrocarbon fluid type, location, water depths, and distance from shore, terrain, accumulation size, and average reservoir properties. All relevant data public domain data have been analyzed. 765 fields in the Niger Delta basin have been evaluated and ranked. 79 of these fields were revealed to possess good to very good FGTP Project potential. A shortlist of the most prospective fields was then enumerated and ranked. Based on the results of this study, we believe we have localized some of the more interesting "sweet-spots" for FGTP Offshore Nigeria, from an industry perspective. Technological developments, the gas price and the continued increase in demand for energy will define if and when these resources will be exploited on a large scale. Furthermore, the study shows that the FGTP option in the Offshore Nigeria space deserves thorough scrutiny and further studies to evaluate its techno-economic feasibility. It could prove an economical and environmentally friendly option for energy generation. If properly harnessed, it could resolve the epileptic power supply problem in Nigeria, generate huge potential revenue for the government, and create numerous employment opportunities.