Browsing by Author "Oghenerume Ogolo"

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A Comparative Analysis of the Well Performance of Vertical, Horizontal and Multilateral Well
(Petroleum and Coal, 2019) Ameena A. Gaji; Petrus Nzerem; Oghenerume Ogolo; Ikechukwu Okafor ; Ternenge Joseph Chior
The demand for energy in the world has been ever increasing. Conventional technologies are being replaced gradually by different new technologies. Horizontal wells and multilateral wells have proved to be highly beneficial by improving production rates significantly. This study focuses on investigating the well performance of vertical well (Well V), horizontal well (Well H), and multilateral well (Well M) in the Hurricane field using PROSPER software. PVT matching, well modelling and well performance analysis was carried out. Sensitivity analysis was performed on key parameters such as tubing diameter, water cut, wellhead pressure and tubing roughness to determine their effects on well productivity. It was observed that increasing the water cut decreased the production rates of Well V, Well H and Well M by 41%, 36.1% and 33.5% respectively. An increase in the tubing diameter improved the production rates, wellhead pressure had high impacts on the well performance while tubing roughness had a minimal effect on oil production. The optimum production rates of 21,622.5 STB/day, 28,653.6 STB/day and 29,800.9 STB/day for Well V, Well H and Well M respectively were achieved at reservoir pressure of 3500 psig, wellhead pressure of 400 psig, water cut of 5% and a 5.5 inches tubing diameter.
A COMPREHENSIVE REVIEW OF HYDRAULIC FRACTURING TECHNIQUES IN SHALE GAS PRODUCTION
(NJEAS, 2023-01-01) Umar Adekola; Abdullahi Gimba; Ayuba Salihu; Khaleel Jakada; Ikechukwu Okafor ; Petrus Nzerem; Joseph Chior; Oghenerume Ogolo; Khadijah Ibrahim
Shale gas has emerged as a significant source of natural gas due to advancements in hydraulic fracturing and horizontal drilling technologies. This extraction method has facilitated drilling and production activities in regions previously untouched by oil and gas development. Hydraulic fracturing, a well-stimulation technique suitable for low and moderate-permeability reservoirs, relies on the successful drilling of horizontal wells and the creation of multiple hydraulic fractures to ensure economic viability. While shale gas presents significant energy production opportunities, concerns have been raised regarding its environmental impact. To mitigate these risks and determine the most effective approach for shale gas extraction, alternative fracturing technologies are being investigated. Notably, a considerable number of perforation clusters in shale gas horizontal wells do not contribute to production, highlighting the potential for refracturing. Therefore, a comprehensive analysis is required to evaluate the performance of hydraulic fracturing and alternative fracturing technologies in shale gas wells, considering factors such as cost-effectiveness, environmental impact, and gas extraction efficiency. This article aims to evaluate the hydraulic fracturing technology's capability to enhance gas recovery in shale gas formations as well as its environmental implications. The focus of this research is primarily on the hydraulic fracturing technique employed in shale gas development, its production capability, and associated environmental concerns. Through a systematic evaluation, this study provided valuable insights into the potential of hydraulic fracturing in maximizing gas recovery while addressing environmental challenges in shale gas formations.
Analysis of Selected Fiber-Rich Agricultural Waste as Water-Based Drilling Mud Fluid Loss Control Additives
(NJEAS, 2024-04-09) Blessing Alade; Petrus Nzerem; Ayuba Salihu; Oghenerume Ogolo; Ajiri Otedheke
For a drilling operation to be successful, the drilling fluid performance must be optimized. This research study the use of degradable agricultural waste namely cowpea skin powder (CSP), sugarcane rind powder (SRP) and yam bark powder (YP) as additives for fluid loss control. The elemental composition of these food wastes was determined using SEM. Proximate analysis was performed to investigate the content of moisture, ash, nitrogen, protein, volatile matter, fixed carbon, bulk density, specific gravity and pH. The local additives were used at 1% (5grams), 3% (10grams), 4% (15grams) and 5% (20grams) each. For CSP fluid loss increased at 5g and 10g (1% and 3%), by 14% and 9% respectively, at 15g and 10.6g, fluid loss decreased by 33% and 36% respectively. Using SRP of 5g increased fluid loss by 12% but there was decrease in fluid loss with 10g, 15g and 2g in these percentages; 14%, 33% and 37% respectively. YP resulted in fluid loss at 5g giving 1.5% loss, 12% loss with 10grams, 16% fluid loss with 15 grams and 33% filtrate loss with 20grams. Overall, SRP showed best fluid loss performance with 20grams (5%), resulting in 37% fluid loss decrease followed by Yam bark powder at 20grams with fluid loss performance of 33%. The least performance was by CSP at 5grams (3%) that increased the filtrate loss by 14%.
Assessing the Impact of Deep Offshore and Inland Basin Production Sharing Contract Ammendments on the Economics of Deep Offshore E&P Assets in Nigeria
(Society of Petroleum Engineers, 2020-08-04) Oghenerume Ogolo; Omowumi Iledare; Petrus Nzerem; Ikechukwu Okafor ; Emeka Iloegbunam; Isaac P. Ekeoma
Nigeria recently amended the Deep Offshore and Inland Basins Act. The Act seeks to generate aditional annual revenue of over $1 billion for the government. The 2019 Law seems attractive to the government in the short run in terms of early rent extraction; on one hand, the seeminglly attractiveness of the fiscal terms in the Ammended Act, which is to expand output from investment in Nigeria deep offshore in the country is conjectural. The purpose of this paper is to evaluate the impact of the amendments to the PSC Act on value creation and addition to stake holders using systems and economic metrics that include investment earning power and discounted government take. A designed petroleum economic modeling framework applied to the fiscal terms in the new Act show a significant decrease in value addition to contractor portfolio of assets by about 25% but increases government discounted take statistics from 63.70% to 72.64% in comparison to the fiscal and contract terms in PSC 1993. The IRR and FLI obtained using the terms in the new Act were 23.66% and 0.043, respectively.
Economic Modelling of the Delay in Passing the Petroleum Industry Bill in Nigeria and Its Impact on Deep Offshore Investments and Government Take Statistics
(Research Square, 2020-11-21) Oghenerume Ogolo; Petrus Nzerem
The petroleum industry bill (PIB) in Nigeria aims to reform the petroleum sector of the country and increase government revenue from petroleum investments. Despite the benefits the bill offers to the country, its passage has suffered several setbacks. This research therefore studied the impact of the delay in passing the bill on deep offshore investments. Economic models were built using the fiscal terms in PIB 2009 and 1993 production sharing contract (PSC) arrangement to evaluate the impact of the bill. The model with the 1993 PSC fiscal terms was adjusted to capture the delay in passing the bill. The bill was assumed to be passed on a yearly basis for 10 years (2010 to 2019). The impact of the delay in passing the bill based on the reserve portfolio of firms in the deep offshore region of the country was also evaluated. The delay in passing the PIB reduced the government take. It was seen that for the non-passage of the bill, the government lost about $1227.2 MM. When the bill was passed in 2019, the government had been losing about $11.843 MM on a yearly basis due to the delay in passing the bill.
Evaluation and Treatment of Cement Contamination in Water Based Mud
(NJEAS, 2023-01-01) Tahir Aliyu; Ikechukwu Okafor; Ayuba Salihu; Khaleel Jakada; Oghenerume Ogolo; Petrus Nzerem; Abdullahi Gimba; Oluogun Olawale
Drilling mud is susceptible to contamination, particularly from cement, yet monitoring its characteristics and implementing control and remediation strategies is critical for its performance in safe and cost-effective drilling operations. This study presents an experimental investigation into the evaluation and treatment of cement contamination in Water Based Mud (WBM). Four mud samples were prepared and three were contaminated with 4g, 8g and 12g of cement. A chemical treatment using 6g of sodium bicarbonate was applied as a remedy for contamination. The Rheological properties, mud pH and mud densities of the contaminated and treated Water Based Mud at temperatures of 35°C, 55°C, 75°C and 95°C were determined. Furthermore, the elemental composition of samples of contaminated and treated Water Based Mud was determined using an X-Ray Fluorescence Spectrometer. From the results obtained the mud density increased with a rise in cement concentration for both contamination and treatment with the exception of 8g cement concentration at 75°C and 95°C and 12g cement concentration at 55°C and 75°C where a decrease was observed in the treatment process. The yield point and 10second gel increased for both contamination and treatment process. In contrast, the 10minute gel decreased for both contamination and treatment process. With some exceptions, increasing cement concentration resulted in a decrease in plastic viscosity, whereas treatment with sodium bicarbonate resulted in an increase with some exceptions. The mud pH for the contamination process increased as cement concentration increased, while treatment only marginally increased it with exception of 12g at 75°C and 95°C where a decrease was observed. Sodium bicarbonate treatment improves stability by decreasing excessive calcium and lime contamination from cement, reducing pollutants and enhancing the pH stability of the drilling mud. Additionally, results from the mud characterization indicates a higher percentage of 17.962% lime (CaO) for cement contamination and lower percentage of 15.710% lime (CaO) for treatment with sodium bicarbonate which agrees with literature for the treatment process.
Evaluation of the Potential of Calcium Hydroxide Synthesized from Eggshells as a Drilling Fluid Additive
(Petroleum and Coal, 2020-01-09) Abdullahi Gimba; Shalom Onome Amakhabi; Oghenerume Ogolo; Oluwaseun Alonge; Nzerem Petrus; Ikechukwu Okafor; David Afolayan
This research work studied the suitability of Ca(OH)2 synthesized from eggshell as a drilling fluid additive. Ca(OH)2 was synthesized from calcined eggshells (CES) and uncalcined eggshells (UCES) and characterized using FTIR and EDX. Samples of one laboratory barrel of water-based mud were prepared using bentonite clay from Afuze, Edo State, Nigeria, and the synthesized Ca(OH)2 produced from CES and UCES and commercial Ca(OH)2 were added to different mud samples prepared, and its effect on the mud properties were tested for. The results obtained from the experiment conducted showed that the synthesized Ca(OH)2 gave comparable pH values as the commercial Ca(OH)2. Hence it served primarily as a pH enhancer. However, the addition of Ca(OH)2 from both sources increased the filtrate volume and mud cake thickness far beyond API standard which might create wellbore problems due to the high filtrate loss and mud cake thickness that were observed.
INVESTIGATING THE IMPACT OF ACHI (BRACHYSTEGIA EURYCOMA) ON THE THICKENING TIME OF CEMENT
(NJEAS, 2023-01-01) Ayuba Salihu; Yakubu Nuhu; Khadijah Ibrahim; Abdullahi Gimba; Petrus Nzerem; Ikechukwu Okafor; Oghenerume Ogolo
In recent times, more wells are being drilled and producing in the petroleum industry. To prevent early workover resulting from casing collapse caused by corrosion, shattering of cement sheath during perforation and fracturing, and to protect the integrity of the well, it is important to use properly designed cement slurry with appropriate additives to protect the well from the formation. The development of adequate thickening time cement is a critical task in cementing operations today. Achieving suitable thickening time of oil well cement ensures both prevention of lost circulation and a long wait on cement time. With this in mind, this research work shows a comparative study of the thickening time of oil well cement with achi and without achi contamination under different temperature of 130 ℉, 150 ℉, 200 ℉, and 250℉ and pressure conditions of 1000 psi, 1500 psi, 2000 psi and 3000psi respectively for all the experiment conducted. The thickening time of cement slurry without achi content at 70 Bc were 205, 215, 202 and 200 minutes respectively. The experiment was also conducted under different achi content ranging from 2 g, 4 g, 8 g, 10 g to 12g. The results and analysis were compared. The result with 2g achi content were 164, 147, 146, and 141 minutes. The results with 4g achi content were 127, 131, 130, and 124 minutes. The results with 8g achi content were 71, 69, 75, and 65 minutes, while the results at 10g achi content were 67, 62, 63, and 60 minutes. The results with 12g achi content were 63, 62, 60, and 56 minutes under the temperature and pressure respectively. The data obtained from the experiment signifies that introducing achi and altering the temperature and pressure to the cement slurry has a significant effect on the properties of the cement by accelerating the thickening time.
MODIFICATION, CHARACTERIZATION AND APPLICATION OF LOCALLY SOURCED ORGANOCLAY FOR OIL SPILL REMEDIATION
(NJEAS, 2023-01-01) Ikechukwu Okafor; Roselyn Odimba; Ayuba Salihu; Oghenerume Ogolo; Petrus Nzerem; Abdullahi Gimba; Khaleel Jakada
The Bentonite clay, obtained from Ubakala, Umuahia, in Abia State was investigated as a sorbent for the potential treatment of oil spill in aquatic medium after its modificaion with Dioctadecyl dimethyl ammonium bromide (DODAB). The purified clay sample was subjected to hydrothermal ion exchange reaction to synthesize organoclays under mild reaction conditions. Changes in the microstructural, morphological and physicochemical properties of the modified clay samples were investigated and studied with the use of Fourier Transform Infrared (FTIR), Scanning Electron Microscopy (SEM) and Energy Dispersive X-Ray Spectroscopy (EDX). The observations showed the presence of new organic compound groups which indicated that the surfactant was intercalated successfully. The organoclays were further tested in a simulated oil spill situation to assess their potential as oil sorbents and sorbed about 4.5% of the oil that was simulated in the laboratory in water. The results further showed that the synthesized organoclay can be used for the remediation of oil spillage. The organoclays present a cost effective and a suitably environmentally friendly alternative for the remediation of oil spill polluted lands in the Niger Delta region of Nigeria.
Performance Analysis of Cowpea Skin, Sugar Cane Rind and Yam Bark as Additives in Water-Based Drilling Mud
(International Conference on Multidisciplinary Engineering and Applied Science (ICMEAS) Authors:, 2023-11-01) Petrus Nzerem; Oghenerume Ogolo; Blessing O. Alade; Ajiri Otedheke; Ayuba Salihu; Jakada K.
Drilling operations require the use of drilling fluid with optimum characteristics. Desired drilling fluid properties is typically controlled using additives. Due to the environmental and safety impact of synthetic additives, this research investigated the use of degradable food waste namely cowpea skin powder (CSP), sugarcane rind powder (SRP) and yam bark powder (YP) as additives in water-based drilling mud. To check the potential of these biodegradable food waste as additives, their elemental composition and approximate composition were ascertained using Scanning electron microscope with energy dispersive x-ray spectroscopy (SEM EDS) and proximate analysis. The method used included the collection, cleaning, drying and grinding each of the food waste (sugarcane rind, cowpea skin and yam bark) into powdered form of 200 microns, performance evaluation of the additives was done in the concentration of 1% (5grams), 3% (10grams), 4% (15grams) and 5% (20grams) each for each API standard laboratory batch of mud. All three powders were confirmed to have significant fiber, carbon, oxygen and hydrogen content, enough to affect fluid loss and filtration control. Significant effect was observed in pH, Plastic viscosity, Yield point, Gel strength and cake thickness. The organic additives tested had no significant effect on mud density and specific gravity.
Performance Evaluation of Nanocellulose Synthesised from Yam Peels as a Fluid Loss Additive in Water Based Mud
(Society of Petroleum Engineers, 2023-07-30) Khadijah Ibrahim; Petrus Nzerem; Ayuba Salihu; Abdullahi Gimba; Oghenerume Ogolo; Ajiri Otedheke; Rabiatu Adamu; Aisha Karofi
Drilling fluids play a variety of roles in order to achieve a smooth and cost-effective drilling operation, the most important of which is their ability to seal permeable walls of the formation through the formation of a desirable mud cake, thereby reducing fluid loss. This study is targeted at evaluating the performance of nano cellulose, cellulose microfibrils synthesised from yam peels as a fluid loss additive and also its effect on the other properties of the drilling mud. The use of nano-cellulose is due to smaller particles forming better impermeable packing that will plug the permeable pore of the mud cake, as well as its ability to hold water. The nano cellulose was synthesised using bleaching, alkali treatment, and acid hydrolysis, and its quality was assessed using Fourier Transform Infrared Spectroscopy (FTIR) and Scanning Electron Microscopy, which confirmed the removal of some non-cellulose components as well as changes in surface morphology. The results of the experiment revealed that nano cellulose had an effect on the pH, rheological properties, and filtration properties of the drilling mud. The results also show that adding 1.5 g of nanocellulose reduced fluid loss by 8.13 %, and thus it can be concluded that yam peels nanocellulose will be an effective additive at higher concentrations compared to the Carboxyl Methyl Cellulose, a commercial additive.
STUDY OF THE POTENTIAL OF CALCIUM HYDROXIDE SYNTHESIZED FROM PERIWINKLE SHELL AS A pH ENHANCER IN WATER BASED DRILLING MUD
(NJEAS, 2023-01-01) Zainab Lamin; Ikechukwu Okafor; Khaleel Jakada; Petrus Nzerem; Abdullahi Gimba; Oghenerume Ogolo; Ayuba Salihu; Khadijah Ibrahim
Reservoirs that contain acidic gases can lead to the corrosion of the drilling string and casing which could result in incessant down time and also increase the cost of drilling operation. This research work aimed at investigating the potential of using locally sourced materials such as Periwinkle Shell Ash (PSA) that can serve as substitutes to imported chemicals used in the industry, to help raise the mud pH to the API standard (9.5-12.5) whilst reducing the cost of drilling operation. Calcium hydroxide (Ca (OH2)) was extracted from Periwinkle Shell using two different process routes (via the calcination of the PSA and without it). Characterization tools were used to assess the functional groups present and the elemental composition of the periwinkle shell. Various laboratory equipment was used to observe the impact the additives would have on the mud properties (pH, mud weight, filtration characteristics and rheological properties) of the new drilling ﬂuid. Results showed that as the mass of the synthesized Ca (OH2) from the calcined PSA, the uncalcined PSA and the commercial Ca (OH2) was increased, the pH of the mud samples was observed to have increased the pH of the base mud by 20.9%, 15.1% and 10%. Therefore, this research showed that the extracted Ca (OH2) acted primarily as a pH enhancer. However, the addition of Ca (OH2) from all sources exhibited poor filtration characteristics as there was high filtrate loss as the filtration time and the additive concentration increased which could affect the formulation and the performance of the drilling mud.
Study of the Potential of Sodium Carbonate Extracted from Trona as a Drilling Fluid Additive
(International Journal of Engineering Research in Africa, 2020-06-30) Petrus Nzerem; Enyo June Adejoh; Oghenerume Ogolo; Ikechukwu Okafor; Abdullahi Gimba; Ternenge Joseph Chior; Precious Ogbeiwi
Drilling additives play a unique role during drilling operations, from aiding in the control of various drilling challenges to successfully enhancing downhole drilling efficiency. pH enhancers are amongst the plethora of additives imported into Nigeria at exorbitant prices to aid in drilling operations. These additives includes NaOH, Na2CO3, Ca(OH)2 etc. These additives are used to improve the mud pH and mitigates drill string corrosion. The high cost of importation of these additives, has warranted the need for product substitution which should take advantage of the locally available resources. This paper evaluated the suitability of locally-sourced Trona, as a mud additive in drilling mud. Trona is known chemically as Sodium Sesquicarbonate or Sodium Hydrogen Carbonate. A distinguishing factor in this research work was the purification of Trona by extracting the compound of interest (Na2CO3) from it using the monohydrate process. The purification method involved crushing and screening of Trona as well as calcination, filtration and evaporation processes. The analysis of the Trona and the extracted product was performed using quantitative analysis and characterization tools such as FTIR and EDX. Further experimentation was carried out to evaluate the effects of the extracted sodium carbonate on the mud pH, rheology, and density of the water based mud. The results were also compared to the results gotten from the addition of conventional Na2CO to similar mud samples. The extracted Na2CO was observed to increase the pH of the mud samples from 8.73 to 9.52 and the commercial Na2CO increased it from 8.73 to 10 and this value is still in the range of API standard. The pH enhancers from both sources also had effect on the mud rheological properties. This indeed showed that the extracted Na2CO from Trona acted as drilling fluid pH enhancer and hence possess the potential for usage in the industry.
Well Placement Optimization Using Simulated Annealing and Genetic Algorithm
(Society of Petroleum Engineers SPE, 2019-07-31) Aisha Diggi Tukur; Alonge Oluwaseun; Oghenerume Ogolo; Petrus Nzerem; Nhoyidi Nsan; Ikechukwu Okafor ; Abdullahi Gimba; Okafor Andrew
The general success ratio of wells drilled lies at 1:4, which highlights the difficulty in properly ascertaining sweetspots. well placement location selection is one of the most important processes to ensure optimal recovery of hydrocarbons. Conventionally, a subjective decision is based on the visualization of the HUPHISO (a product of net-to-gross, porosity and oil saturation) map. While this approach identifies regions of high HUPHISO regarded as sweetspots in the reservoir; it lacks consideration for neighbouring regions of the sweetspot. This sometimes lead to placement of wells in a sweetspot but near an adjoining aquifer; giving rise to early water breakthrough - low hydrocarbon recovery. Recently, heuristic optimization techniques. Genetic algorithm (GA) and simulated annealing (SA) has received attention as methods of selection of well-placement locations. This project developed and implemented GA and SA well-placement algorithms and compared the reservoir performance outputs to that of conventional method. Firstly, a reservoir performance model was built using a reservoir flow simulator. In the base case, the wells were placed based on a subjective selection of gridblocks upon the visualization of the HUPHISO map. Thereafter, JAVA routines of GA and SA well-placement algorithms were developed. The numeric data (ASCII format) underlying the map were then exported to the routines. Finally, the performance model was updated with new well locations as selected based on the GA and SA-based approach and the results were compared to the base case. The Comparison of the results showed that both GA and SA-based approach resulted to an increased recovery and time before water breakthrough.