Your search keyword '"Surface equipment"' showing total 2 results

1. Ab Initio molecular dynamics of the dissolution of oilfield pyrite scale using borax

Author

Ibnelwaleed A. Hussein, Mohammed A. Saad, Santiago Aparicio, Abdulmujeeb T. Onawole, and Musa Ahmed

Subjects

Materials science, Potassium, chemistry.chemical_element, Iron sulfide, Radial distribution functions, 02 engineering and technology, Molecular dynamics, engineering.material, 010402 general chemistry, Radial distribution function, 01 natural sciences, chemistry.chemical_compound, Pyrite dissolution, Borate minerals, Materials Chemistry, Chelation, Sodium borate, Physical and Theoretical Chemistry, Sulfur compounds, Dissolution, Spectroscopy, Ab initio molecular dynamics, Borax, Underground equipment, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Sulfur, Physicochemical process, Atomic and Molecular Physics, and Optics, Pyrites, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Oil fields, chemistry, Chemical engineering, Ab initio molecular dynamics simulation, Iron sulfide scale, engineering, Pyrite, Surface equipment, 0210 nano-technology, Distribution functions, Chelating agent

Abstract

Iron sulfide scales, particularly pyrite, form in oil and gas underground tubing and surface equipment thus blocking the flow of fluids and halting production. Therefore, the development of physicochemical processes for scale removal is of pivotal relevance. In this work, Ab Initio Molecular dynamics simulations have been employed to investigate the use of borax as a scale removal agent and understand the molecular level features in the dissolution of pyrite using a borax solution. Geometry analysis, radial distribution function, and near neighbor analysis tools have been used to analyze the data. The reported results show that potassium ion is preferentially bonding with the sulfur atoms in the top layer of the pyrite surface rather than with iron, thus being the predominant factor that accounts for pyrite dissolution. The K[sbnd]S bonds evolve dynamically exposing the whole pyrite surface. The presence of the chelating agent would prevent the formation of Fe[sbnd]S bonds. It is proposed that borax, in conjunction with chelating agents, could be used for removing the pyrite scale and consequently boosting production in the upstream sector. The authors would like to acknowledge the support of Qatar National Research Fund (a member of Qatar Foundation) through Grant # NPRP9-084-2-041 . The findings achieved herein are solely the responsibility of the authors. The Research Computing group at Texas A&M University at Qatar (funded by Qatar Foundation) provided the HPC facilities used in this work. Qatar University and the Gas Processing Center are also acknowledged for their support. Scopus

Published

2020

2. Evaluation of Oil Fields in and Around Diyarbakır (SE Anatolia of Turkey) in Terms of Production

Author

Rifat Bulbul, Orhan Kavak, Dicle Üniversitesi, Mühendislik Fakültesi, Maden Mühendisliği Bölümü, Bulbul, Rıfat, and Kavak, Orhan

Subjects

Water injection wells, Proven reserves, Structure and physical properties, Oil wells, Pumps, Capping mechanism, Reserves to production ratio, Earth sciences, Natural gas transportation, Production formation, Offshore oil well production, Reserves-to-production ratio, Environmental protection, Economical aspects, Environmental science, Production (economics), Petroleum transportation, Surface equipment, Production wells, Petroleum reservoir evaluation, Petroleum reservoirs, Enviromental effects

Abstract

This study aims to give information about the oil production of 42 Oil Fields and the wells of each field in Diyarbakir and the surrounding area where is geologically located at the boundary of Anatolian plate and Middle Eastern oil region in the Southeastern Anatolia of Turkey. The structure of oil reservoirs at this region, the interaction of oil and water at the reservoir, capping mechanism of reservoir oil and water are the given topics about the reservoir. Average drilling depth of oil wells at the surrounding area, chemical structure and physical properties of production formations, calculation of production rate, pump types and selecting the suitable type of pump for several production rates, advantages and disadvantages of the pump types are also the other given information about the region. Moreover, regional evaluation of the oil and water ratios, API gravity of produced oil, salinity and pH values of produced water are mentioned by using the analysis of samples taken from the wells in different regions of Diyarbakir province. The other purpose of the study is to inform about stocking of produced oil and water by using surface systems, seperation systems of oil from the water, injecting of seperated water to water injection wells, analysing the downhole and surface equipment failures for production wells and enviromental effects of oil production. Giving information about the economical aspect of the oil production for Turkey and Diyarbakir region is also one of the other goal. Solutions are offered for the encountered problems during the production, separation, transportation, and the refinery processes of the reserves in Diyarbakir city of Turkey, that imports most of its petroleum and natural gas use despite being very close to relatively large reserves.

Published

2019