Development of an Online, Non-Intrusive Means for Detecting Onset of Formation Water Production in Gas Flow Lines

Mohammed, Sabry A.; Aggour, M.; Fraim, M.; Aboegila, A.; Farooqui, M.A.S.Z.; Al-Kharaz, H.; Ashkanani, Meshari; Marmoush, M.

doi:10.2523/iptc-17327-ms

Cited by 3 publications

(1 citation statement)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This phenomenon is more complicated in fractured reservoirs, where dual porosity exists, which results in the formation of two cones. In this case, two different cones with two different rates, one in matrix and one in fracture may form, which creates a very complicated situation at the surface (Egbe and Appah, 2005;Lakatos et al, 2014;Mohammed et al, 2014;Cinar et al, 2016;Li et al, 2016;Zemtsov and Lytkin, 2016). Permadi and Jayadi (2010) proposed a new calculation method for determining the water coning in horizontal wells.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of obsessive compulsive disorder and depression symptoms in visitors of hair and skin clinic of Shohadaye Ashayer Hospital of Khorramabad

Ahmadian¹

2017

Biosci. Biotech. Res. Comm

View full text Add to dashboard Cite

Oil reservoirs are usually consist of hydrocarbons (oil and gas) and bottom water. The natural depletion of the reservoir occurs by the natural energy of the reservoir. Reservoirs pressures are usually high in the beginning and this will transmit the fl uid from the reservoir to the surface. However, after some time of production, when the reservoir pressure falls down, water comes into the formation and starts to produce through the wellbore. This happens because of the disturbance in gravitational force in the reservoir, which results in water production along with oil. Reducing well productivity, water separation and handling, corrosion and environmental issues are the major challenges associated with water coning phenomena. In this study, the black oil model of ECLIPSE software was used to study the water coning issue in an oil reservoir. Different production plans were studied and their effect on water coning was investigated. In addition, the best production plan was introduced using simulation results. The simulation results showed that pressure draw down in the reservoir decreased with decreasing oil production rate, which inherently decreases the water production rate. Moreover, the simulation results showed that oil recovery factor can be increased signifi cantly by decreasing the amount of water production.

show abstract

Section: Introductionmentioning

confidence: 99%

Evaluation of obsessive compulsive disorder and depression symptoms in visitors of hair and skin clinic of Shohadaye Ashayer Hospital of Khorramabad

Ahmadian¹

2017

Biosci. Biotech. Res. Comm

View full text Add to dashboard Cite

show abstract

Wider Salinity Range and Lower Water Detection Limit for Multiphase Flowmeters

Fiore

Xie

Jolivet

2020

SPE/IATMI Asia Pacific Oil &Amp; Gas Conference and Exhibition

View full text Add to dashboard Cite

With 20 years of operations, multiphase flowmeters (MPFMs) using a combination of venturi and multi-energy gamma-ray absorption have gained acceptance in the oil and gas industry by demonstrating reliable measurement and operational robustness. Nonetheless, some challenging operating scenarios are encountered such as significant water salinity changes in multiphase and wet-gas flows and rapid detection of small water quantities during production. Although MPFMs are not affected by small water salinity changes, inaccurate flow rates can be calculated when water salinity significantly departs from the initial properties. To maintain measurement metrology as per specifications, the water-point should be manually modified to track variations; however, this operation is time consuming and may incur nonproductive time. Interpreting the multiphase mixture's dielectric constant and electrical conductivity simultaneously measured by a new microwave water salinity sensor at a high data acquisition rate shows that water salinity can be tracked online in the presence of oil, gas, and sand, and small water quantities can be detected rapidly in multiphase and wet-gas flows. The detection of the first produced water is of paramount importance in many applications, such as for fields with high H2S production, where existing processing plants usually have limitations in treating produced water with dissolved H2S. Early detection of produced water in oil is required, enabling operators to take informed decisions about the oil production strategy as well as water treatment and corrosion protection plans. Extensive analyses in flow loops and field operations with the new microwave water salinity sensor demonstrate that the water detection limit is lowered from the typical ∼1000-ppm water volume fraction (WVF) for the MPFM to a remarkably low 50 ppm. This paper describes the working principles of a new sensor and method, that enable additional capabilities to maintain accurate water-liquid ratio (WLR) measurement in situations where significant water salinity changes occur and to provide a rapid, much lower WVF detection level. Successful cases demonstrating first-water detection in flow loop tests and in field operations are also presented.

show abstract

Extending Salinity Operating Range and Water Detection Lower Limit of Multiphase Flowmeters

Fiore

Xie

Jolivet

2020

Day 3 Wed, January 15, 2020

View full text Add to dashboard Cite

With 20 years of operations, multiphase flowmeters (MPFMs) using a combination of venturi and multi-energy gamma-ray absorption have gained acceptance in the oil and gas industry by demonstrating reliable measurement and operational robustness. Nonetheless, some challenging operating scenarios are encountered such as significant water salinity changes in multiphase and wet-gas flows and rapid detection of small water quantities during production. Although MPFMs are not affected by small water salinity changes, inaccurate flow rates can be calculated when water salinity significantly departs from the initial properties. To maintain measurement metrology as per specifications, the water-point should be manually modified to track variations; however, this operation is time consuming and may incur nonproductive time. The salinity change measured by a newly developed sensor can be provided seamlessly to MPFMs to automatically update the water point calibration, thus ensuring good flow rate measurement performance over a wider water salinity range. Extensive validations at several flow loop facilities and field tests, including frac flowback operations, demonstrate the robustness of the method in terms of hardware reliability and the delivery of high-quality data when used with MPFMs with digital connectivity, which opens the way to unmanned production monitoring operations. Interpreting multiphase mixture's dielectric constant and electrical conductivity simultaneously measured by the new microwave water salinity sensor at a high data acquisition rate shows that water salinity can be tracked online in the presence of oil, gas, and sand, and small water quantities down to 50 ppm (part-per-million) water volume fraction (WVF), from the typical ~1000-ppm WVF for the MPFM, can be detected rapidly in multiphase and wet-gas flows. This paper describes the working principles of the new sensor that enable additional capabilities to maintain accurate water-liquid ratio (WLR) measurement in situations where significant water salinity changes occur and to provide a rapid, much lower WVF detection level. Successful cases demonstrating an accurate real-time salinity monitoring in flow loop tests and in field operations are also presented.

show abstract

Development of an Online, Non-Intrusive Means for Detecting Onset of Formation Water Production in Gas Flow Lines

Cited by 3 publications

References 0 publications

Evaluation of obsessive compulsive disorder and depression symptoms in visitors of hair and skin clinic of Shohadaye Ashayer Hospital of Khorramabad

Evaluation of obsessive compulsive disorder and depression symptoms in visitors of hair and skin clinic of Shohadaye Ashayer Hospital of Khorramabad

Wider Salinity Range and Lower Water Detection Limit for Multiphase Flowmeters

Extending Salinity Operating Range and Water Detection Lower Limit of Multiphase Flowmeters

Contact Info

Product

Resources

About