T. M. El-Shiekh scite author profile

Natural gas passing through pipelines is transported by means of compressor stations that are installed in pipeline-network systems. These stations are usually installed at intervals greater than 60 miles to overcome pressure loss, and typically, they consume approximately 3 to 5% of the transported gas, making the problem of how to optimally operate the compressors driving the gas in a pipeline network important. The objective function of the optimization model is a nonlinear mathematical relationship. The model has been studied to minimize the fuel consumption in the compressor stations and to obtain suitable decision-making variables. Genetic algorithms are used as the optimization methodology, and the software program Lingo (Thompson 2011) is used to compare the optimization results. Two cases of centrifugal compressor stations with different performances are studied. The optimization model aims to improve the fuel consumption of the compressor stations in the pipeline network according to the conditions of the transmissions.

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Simulation for estimation of hydrogen sulfide scavenger injection dose rate for treatment of crude oil

El-Shiekh

Elmawgoud

Khalil

et al. 2015

Egyptian Journal of Petroleum

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The presence of hydrogen sulfide in the hydrocarbon fluids is a well known problem in many oil and gas fields. Hydrogen sulfide is an undesirable contaminant which presents many environmental and safety hazards. It is corrosive, malodorous, and toxic. Accordingly, a need has been long left in the industry to develop a process which can successfully remove hydrogen sulfide from the hydrocarbons or at least reduce its level during the production, storage or processing to a level that satisfies safety and product specification requirements. The common method used to remove or reduce the concentration of hydrogen sulfide in the hydrocarbon production fluids is to inject the hydrogen sulfide scavenger into the hydrocarbon stream. One of the chemicals produced by the Egyptian Petroleum Research Institute (EPRI) is EPRI H 2 S scavenger. It is used in some of the Egyptian petroleum producing companies. The injection dose rate of H 2 S scavenger is usually determined by experimental lab tests and field trials. In this work, this injection dose rate is mathematically estimated by modeling and simulation of an oil producing field belonging to Petrobel Company in Egypt which uses EPRI H 2 S scavenger. Comparison between the calculated and practical values of injection dose rate emphasizes the real ability of the proposed equation. Ó 2015 Production and hosting by Elsevier B.V. on behalf of Egyptian Petroleum Research Institute. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/ 4.0/).

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Optimization of petroleum crude oil treatment using hydrogen sulfide scavenger

Elmawgoud

El-Shiekh

Abdelkreem

et al. 2019

Egyptian Journal of Petroleum

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T. M. El-Shiekh

Leak Detection Methods in Transmission Pipelines

A polynomial regression model for stabilized turbulent confined jet diffusion flames using bluff body burners

Optimization of Fuel Consumption in Compressor Stations

Simulation for estimation of hydrogen sulfide scavenger injection dose rate for treatment of crude oil

Optimization of petroleum crude oil treatment using hydrogen sulfide scavenger

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