Mahmood Amani scite author profile

The high-profile blowout at Macondo well in the US Gulf of Mexico, brought the challenges and the risks of drilling into high-pressure, high-temperature (HPHT) fields increasingly into focus. Technology, HSE, new standards, such as new API procedures, and educating the crew seem to be vital in developing HPHT resources. High-pressure high-temperature fields broadly exist in Gulf of Mexico, North Sea, South East Asia, Africa, China and Middle East. Almost a quarter of HPHT operations worldwide is expected to happen in American continent and the majority of that solely in North America. Oil major companies have identified key challenges in HPHT development and production, and service providers have offered insights regarding current or planned technologies to meet these challenges. Drilling into some shale plays such as Haynesville or deep formations and producing oil and gas at HPHT condition, have been crucially challenging. Therefore, companies are compelled to meet or exceed a vast array of environmental, health and safety standards. This paper, as a simplified summary of the current status of HPHT global market, clarifies the existing technological gaps in the field of HPHT drilling, cementing and completion. It also contains the necessary knowledge that every engineer or geoscientist might need to know about high pressure high temperature wells. This study, not only reviews the reports from the Bureau of Ocean Energy Management, Regulation and Enforcement (BOEMRE) and important case studies of HPHT operations around the globe but also compiles the technical solutions to better maneuver in the HPHT market. Finally, the HPHT related priorities of National Energy Technology Laboratories (NETL), operated by the US Department of Energy (DOE), and DeepStar, as a strong mix of large and mid-size operators are investigated. Introduction:

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Mid-infrared dual frequency comb spectroscopy based on fiber lasers for the detection of methane in ambient air

Zhu

Bicer

Askar

et al. 2015

Laser Phys. Lett.

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We utilize mid-infrared dual frequency comb spectroscopy for the detection of methane in ambient air. Two mid-infrared frequency comb sources based on femtosecond Er:fiber oscillators are produced through difference frequency generation with periodically poled MgO-doped lithium niobate crystals and stabilized at slightly different repetition rates at about 250 MHz. We performed dual frequency comb spectroscopy in the spectral range between 2900 cm −1 and 3150 cm −1 with 0.07 cm −1 resolution using a multipass cell of ~580 m path length, and achieved the sensitivity about 7.6 × 10 −7 cm −1 with 80 ms data acquisition time. We determined the methane concentration as ~1.5 ppmv in the ambient air of the laboratory, and the detection limit as ~60 ppbv for the current setup.

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Effective Thermal Conductivity Modeling of Sandstones: SVM Framework Analysis

et al. 2016

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Overview of Water Shutoff Operations in Oil and Gas Wells; Chemical and Mechanical Solutions

Taha

Amani

2019

ChemEngineering

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This paper provides an integrated overview of the water shutoff operations, starting from the causes to the solutions. The paper begins with explaining the benefits of eliminating excessive water production. Then, the different types of water production and their properties are explained. The paper also focuses in reviewing the disadvantages of producing unwanted water as well as the sources of it, followed by an explanation of the methodology for identifying the problem. Then, the chemical solutions for water shutoff are reviewed which are generally applied to solve the excessive unwanted water production in the reservoir or near the wellbore area. Finally, the paper illustrates the common mechanical solutions for water shutoff within the wellbore. The aim behind this paper is to provide a general description of identifying the unwanted water production sources and the common practices for water shutoff operations.

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Mahmood Amani

Implementation of SVM framework to estimate PVT properties of reservoir oil

HPHT 101 - What Every Engineer or Geoscientist Should Know about High Pressure High Temperature Wells

Mid-infrared dual frequency comb spectroscopy based on fiber lasers for the detection of methane in ambient air

Effective Thermal Conductivity Modeling of Sandstones: SVM Framework Analysis

Overview of Water Shutoff Operations in Oil and Gas Wells; Chemical and Mechanical Solutions

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