A proposed simpilfied technique for accurate calculation of flared gas volume: Case study of an oil and gas processing plant in Niger Delta
Date
2015
Journal Title
Journal ISSN
Volume Title
Publisher
Society of Scientific Research
Abstract
A simplified technique for an accurate calculation of flared gas volume has been established. Although the regulatory agencies in the oil and gas industry has placed some financial and cost measures to minimize the amount of standard cubic feet of gas flared per day by operating companies yet some operators and contractors could not keep an accurate measurement on the actual amount of gas flare from their production facilities. These shortcomings are partially caused due to lack of technologies, equipment malfunctions, equipment inefficiencies, human resource deficiencies. However, gas flaring is by no means a simple measurement process on its own. This is primarily due to the large variations in conditions often found in a flare stack. Measurement difficulties could also arise through the flare type based on changes in the flow profile and Reynolds number caused by variation in the physical properties of the gases and errors due to installation effects. From the aforementioned points, it is clear that the accurate measurement of the flared gas is a rigorous and complex process with several challenges to be considered. This paper presents a technique for measuring flared gas volume based on PVs (pressure valves) present in process plants. A similar approach has been applied in South Pars gas development projects in Iran; utilizing the design information in PVs datasheet as well as actual plant data for opening percentage values which have been utilized from plant Distributed Control System (DCS ) and PIMS ( Plant Integrated Management System) via excel and visual basic.5 However, in this study, a new/robust software program that has the ability of extracting data from the plant DCS and PIMS server has been developed using Java, correlation used by this software was generated using Hysys for a particular process plant model in Niger-Delta and the correlation was regressed using excel. An iteration time-step of 1440 minutes has been chosen for greater accuracy. Features of this program include flexibility, less run-time error, user friendly, less memory space and real-time. Assumptions made during these calculations were stated clearly in this paper. Key inputs to this program are valve percentage openings per minute. Key outputs are average percentage opening per day and amount of flared per day in million standard cubic feet (MMscf).
Description
A research article with figures and tables
Keywords
Pressure valves (PVs), valve openings, Java, gas flare, hysys, Department of Petroleum Engineering
Citation
Igwilo, K., Abonyi, C., & Umeh, E. (2015). A proposed simpilfied technique for accurate calculation of flared gas volume: Case study of an oil and gas processing plant in Niger Delta. Integrated Journal of Engineering Research and Technology, 2 (2), 111 - 121