Research Articles in Petroleum & Gas

Permanent URI for this collectionhttps://repository.nileuniversity.edu.ng/handle/123456789/57

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Author: search.filters.author.Petrus NzeremSubject: search.filters.subject.Hydrogen

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    Determination of the Optimal Blend Ratio of Hydrogen in Natural Gas System Using Physical Properties as Basis
    (ICMEAS, 2023-11-01) Ayuba Salihu ; Ikechukwu Okafor; Aniezi Okoro Daniel; Abdullahi Gimba ; Petrus Nzerem
    The Determination of the optimal blend ratio of hydrogen in natural gas systems using physical properties as a basis is an important research topic given the increasing use of hydrogen as an alternative fuel source. This research aims to determine the optimal blend ratio of hydrogen in a natural gas system using physical properties such as its Composition, Heating Value, Density, and Wobbe index as the basis of evaluation. Samples of consumer-grade Natural gas and clean Hydrogen gas were sourced in Nigeria. Both samples were used for blending and laboratory analysis. The blend volume ratios of Natural Gas (NG) and Hydrogen analyzed were 9:1, 8:2, 7:3, 6:4, & 5:5 using a Gasometer and Gas Chromatography Machine (CG). The experiment results provided valuable insights into the potential feasibility of replacing natural gas systems with a Hydrogen-Natural gas blend. The result obtained indicated about 2.06% reduction in percentage methane content, 26.35% reduction in gas density, 19.97% reduction in heating value (HHV), 5% reduction Wobbe index for every 10% increment of Hydrogen Ratio. This implies that blending carbon-neutral hydrogen gas into the natural gas systems for the purpose of decarbonization requires adequate compensation for expected changes in properties like heating value, flow dynamics, and process handling. The EUROMOT specification recommends that the percentage change in the wobbe index should be within the limit of +4% and -4% as an acceptable limit of interchangeability of fuel gas. Using the EUROMOT specification on Wobbe index, further numerical analysis affirmed that Natural Gas blended with as much as 25.74% Hydrogen can effectively be a substitute for fuel gas systems that are presently using Natural Gas.
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    Current Developments on the Application of Hydrogen in Industry: A Review
    (NJEAS, 2024-04-18) Petrus Nzerem; Jacklyn Oche; Mohammed Sherrif; Khaleel Jakada; Ikechukwu Okafor; Joseph Chior; Chinaza Enwere; Adekunle Akanni Adeleke
    The worldwide transition in energy utilization to a society that is “carbon-neutral” demands a major revamp of power generating and distribution networks. Notwithstanding, in the great drive for the growth of renewable energy that is clean and environmentally safe, hydrogen's incorporation into energy networks is currently understudied. The state of the current art and prospects for the future, including prospective applications of hydrogen technologies in energy are examined in this overview. The findings demonstrate the fact, which portrays continual efforts to increase performance, technological perspective, and increases in scale. Finally, governmental support is of great importance and necessity if allowance is to be made for a cost-competitive hydrogen economy.