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KRISTOFOL WAAS
D4 Oil and Gas Production Engineering Study Program, Department of Mechanical Engineering, Ambon State Polytechnic
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EVALUATION AND OPTIMIZATION OF SUCKER ROD PUMP IN WELL X AGAINST HYDROCARBON FLUID PRODUCTION INCREASE Y FIELD KRISTOFOL WAAS; BERTHY PELASULA; MELADY LOKOLLO
INTERNATIONAL JOURNAL OF MULTI SCIENCE Vol. 3 No. 05 (2023): INTERNATIONAL JOURNAL OF MULTISCIENCE - MAY - AUGUST 2023
Publisher : CV KULTURA DIGITAL MEDIA

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To increase the productivity of a sucker rod pump, it is necessary to pay attention to the pump production capacity, stroke length, pumping speed. The decline in pump production can be caused by various factors. Well X experienced a decrease in production, this was due to not meeting the optimum target that could be achieved by the pump, where at the time the research was carried out, well X had already been produced using a Sucker Rod Pump (SRP). This is a method of artificial lifting (Artificial Lift) that is most commonly used, due to the combined motion between the equipment that is on the surface and the equipment that is below the surface. The Sucker Rod Pump (SRP) Artificial Lift method is used in several wells in the KLAMONO – PERTAMINA EP CEPU Papua Field. To increase the production of well X, it is necessary to take optimization measures by increasing the initial SPM parameters. Before this optimization is carried out, the pump needs to be evaluated first to be able to find out the pump capacity by finding the PI and Qmax values to make the IPR curve. PI and Qmax in the X well studied by PI is 12.326 and Qmax is 1539.66 bfpd, The results obtained using the vogel method using the Pipesim application (PIP) for well X are only capable of producing 315 bfpd at 18 SPM with a Pwf of 187.279 psi and can still be optimized by increasing the Strokes Per Minute Parameter (SPM) to 24 SPM by production yield increased by 891 bfpd at a Pwf pressure of 129,847 psi.
IDENTIFICATION AND MANAGEMENT OF PARAFFIN IN THE FM-20 WELL FROM THE WELL HEAD TO THE MANIFOLD OF DISTRICT I KAWENGAN KRISTOFOL WAAS; MICHELLE IVONIE LETLORA
INTERNATIONAL JOURNAL OF MULTI SCIENCE Vol. 3 No. 03 (2022): INTERNATIONAL JOURNAL OF MULTISCIENCE - SEPTEMBER - DESEMBER 2022 EDITION
Publisher : CV KULTURA DIGITAL MEDIA

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Indonesia is one of the oil and gas producing countries in the world. This natural wealth needs to be utilized as much as possible. The main objective to be achieved in the production operation of an oil and gas well, is to increase the rate of production until it reaches its peak. The sharp decline in production volumes and levels of oil production from oil wells is a production problem. Paraffin is a raw material contained in crude oil and is a production problem. The paraffin deposition process can occur in perforations, tubing, flowlines, or surface facilities resulting in decreased production rates. In some cases, paraffin deposits may form at the bottom of the well and in the pore space in a radial direction several inches from the well wall, occurring as a result of the oil cooling below the cloud point. Cloud point and pour point are two things that become certain factors in the characteristics of paraffin. The cloud point is the temperature where the paraffin first begins to precipitate from the crude oil mixture. When the temperature drops, the particles that form the paraffin precipitate attract and bind other paraffin particles into one group. At this point the crude oil will start to look hazy and then can't flow. The condition where crude oil cannot flow is called the pour point. The results obtained by using the method. It can be seen that the Electric Heat Trace in the downstream area (variation 2) will be more effective because paraffin will no longer form in the flowline.
Co-Authors BERTHY PELASULA MELADY LOKOLLO MICHELLE IVONIE LETLORA