Investigation of the influence of the carbon dioxide (CO<sub>2</sub>) injection rate on the activity of the water pressure system during gas condensate fields development

Matkivskyi, Serhii; Kondrat, Oleksandr; Burachok, Oleksandr

doi:10.1051/e3sconf/202123001011

Cited by 20 publications

(10 citation statements)

References 9 publications

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“…In “Increased Oil Recovery” as a CO 2 storage method, as a conventional improvement, even if there are more reserves, the pressure in the oil field pushes it to the surface and this pressure slowly decreases until it is over [ 54 ]. Carbon dioxide separated from the hydrogen production process can be injected to maintain water or gas pressure and increase oil extraction [ 55 ].…”

Section: Co 2 Storage Methodsmentioning

confidence: 99%

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Yüzbaşıoğlu

Tatarhan

Gezerman

2021

Heliyon

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With the synthesis of ammonia with chemical methods, global carbon emission is the biggest threat to global warming. However, the dependence of the agricultural industry on ammonia production brings with it various research studies in order to minimize the carbon emission that occurs with the ammonia synthesis process. In order to completely eliminate the carbon emissions from ammonia production, both the hydrogen and the energy needed for the operation of the process must be obtained from renewable sources. Thus, hydrogen can be produced commercially in a variety of ways. Many processes are discussed to accompany the Haber Bosch process in ammonia production as potential competitors. In addition to parameters such as temperature and pressure, various plasma catalysts are being studied to accelerate the ammonia production reaction. In this study, various alternative processes for the capture, storage and complete removal of carbon gas released during the current ammonia production are evaluated and the current conditions related to the applicability of these processes are discussed.In addition, it has been discussed under which conditions it is possible to produce larger capacities as needed in the processes studied in order to reduce carbon gas emissions during ammonia production in order to provide raw material source for fertilizer production and energy sector. However, if the hydrogen gas required for ammonia production is produced using a solid oxide electrolysis cell, the reduction in the energy requirement of the process and in this case the reduction of energy costs shows that it will play an important role in determining the method to be used for ammonia production. In addition, it is predicted that working at lower temperature (<400 C) and pressure (<10 bar) values in existing ammonia production technologies, despite increasing possible energy costs, will significantly reduce process operating costs.

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Section: Co 2 Storage Methodsmentioning

confidence: 99%

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Yüzbaşıoğlu

Tatarhan

Gezerman

2021

Heliyon

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“…Based on the previous research results, it has been determined that due to the carbon dioxide injection, it is possible to additionally recover a significantly larger volume of gas compared to the options of the field development for depletion and to provide significantly higher final gas recovery factors [24]- [26].…”

Section: Introductionmentioning

confidence: 99%

Studying the influence of the carbon dioxide injection period duration on the gas recovery factor during the gas condensate fields development under water drive

Matkivskyi¹,

Kondrat²

2021

Min. miner. depos.

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Purpose. Studying the process of carbon dioxide injection at the boundary of the initial gas-water contact in order to slow down the formation water inflow into producing reservoirs and increase the final hydrocarbon recovery factors. Methods. To assess the influence on gas recovery factor of the duration of carbon dioxide injection period at the initial gas-water contact, a reservoir development is studied using the main Eclipse and Petrel hydrodynamic modeling tools of the Schlumberger company on the example of a hypothetical three-dimensional model of a gas-condensate reservoir. Findings. The dependence of the main technological indicators of reservoir development on the duration of the carbon dioxide injection period at the initial gas-water contact has been determined. It has been revealed that an increase in the duration of the non-hydrocarbon gas injection period leads to a decrease in the formation water cumulative production. It has been found that when injecting carbon dioxide, an artificial barrier is created due to which the formation water inflow into the gas-saturated intervals of the productive horizon is partially blocked. The final gas recovery factor when injecting carbon dioxide is 61.98%, and when developing the reservoir for depletion – 48.04%. The results of the research performed indicate the technological efficiency of carbon dioxide injection at the boundary of the initial gas-water contact in order to slow down the formation water inflow into producing reservoirs and increase the final hydrocarbon recovery factors for the conditions of a particular field. Originality. The optimal value of duration of the carbon dioxide injection period at the initial gas-water contact has been determined, which is 16.32 months based on the statistical processing of calculated data for the conditions of a particular field. Practical implications. The use of the results makes it possible to improve the existing technologies for the gas condensate fields development under water drive and to increase the final hydrocarbon recovery factor.

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“…Однією з успішних технологій є технологія нагнітання діоксиду вуглецю в продуктивний поклад, яка достатньо вивчена та успішно використовується в світі [6][7][8]. Враховуючи те, що густина та в'язкість діоксиду вуглецю значно вища за густину природного газу в пластових умовах постійний процес запомповування діоксиду вуглецю на початковому газоводяному контакті може частково запобігти просуванню пластової води в продуктивні поклади.…”

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Перспективи Впровадження Вторинних Технологій Розробки Виснажених Нафтогазоконденсатних Родовищ України З Використанням Невуглеводневих Газів

Matkivskyi¹

2021

grail-of-science

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Використовуючи цифрову тривимірну модель Гадяцького нафтогазоконденсатного родовища проведено дослідження ефективності нагнітання діоксиду вуглецю в поклад горизонту В-16 з метою підвищення кінцевих коефіцієнтів вуглеводневилучення. Згідно результатів моделювання встановлено, що завдяки високій розчинності діоксиду вуглецю в пластових флюїдах забезпечується підвищення рухомості конденсату, що вже випав в пласті та зменшення рухомості пластової води. При нагнітанні діоксиду вуглецю в поклад горизонту В-16 забезпечується ефективне витіснення з порового простору залишкових запасів вуглеводнів. Згідно результатів розрахунків прогнозний коефіцієнт вилучення газу збільшується на 3,22 % за величиною залишкових запасів газу, а коефіцієнт вилучення конденсату при цьому зростає на 1,29 %. Зважаючи на високу технологічну ефективність вторинних технологій розробки газоконденсатних родовищ, рекомендується їх впровадження на родовищах України.

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Investigation of the influence of the carbon dioxide (CO₂) injection rate on the activity of the water pressure system during gas condensate fields development

Cited by 20 publications

References 9 publications

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Studying the influence of the carbon dioxide injection period duration on the gas recovery factor during the gas condensate fields development under water drive

Перспективи Впровадження Вторинних Технологій Розробки Виснажених Нафтогазоконденсатних Родовищ України З Використанням Невуглеводневих Газів

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Investigation of the influence of the carbon dioxide (CO2) injection rate on the activity of the water pressure system during gas condensate fields development

Cited by 20 publications

References 9 publications

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Decarbonization in ammonia production, new technological methods in industrial scale ammonia production and critical evaluations

Studying the influence of the carbon dioxide injection period duration on the gas recovery factor during the gas condensate fields development under water drive

Перспективи Впровадження Вторинних Технологій Розробки Виснажених Нафтогазоконденсатних Родовищ України З Використанням Невуглеводневих Газів

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Investigation of the influence of the carbon dioxide (CO₂) injection rate on the activity of the water pressure system during gas condensate fields development