Ali Madadizadeh scite author profile

Ali Madadizadeh

5Publications

26Citation Statements Received

68Citation Statements Given

How they've been cited

How they cite others

209

Affiliations

University of Guelph, University of Tehran

Publications

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The use of nanotechnology to prevent and mitigate fine migration: a comprehensive review

Madadizadeh

Sadeghein

Riahi

2020

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AbstractFine migration is a serious problem in petroleum reservoir that causes damage to the reservoir and production equipment. One of the methods to solve this problem is using nanotechnology. Nanoparticles can reduce fine migration by various mechanisms such as reducing the zeta potential, changing the total interaction energy between surfaces, pH, and roughness of the particle’s surfaces. This study presents a review of the methods such as sand pack test, core flood test, and proppant test that study the nanoparticles’ influence on fine migration. Also, there are two different scenarios for the use of nanoparticles to mitigate fine migration. One of these scenarios is the co-injection of nanoparticles and particles suspended fluid, and another scenario is the initial injection of nanoparticles into the porous media (pre-flush). The results of the studies have shown that pre-flush of nanoparticles has a better effect on the control of fine migration.

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Synergetic effects of PVP/HEC polymers on rheology and stability of polymeric solutions for enhanced oil recovery at harsh reservoirs

mellei¹,

Madadizadeh²,

Riahi³

et al. 2022

Journal of Petroleum Science and Engineering

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Elemental analysis of scale inhibitors' effect on water incompatibility in carbonate reservoirs: Modeling, bulk and core scales studies

Zojaji

Madadizadeh

Riahi

2022

Journal of Petroleum Science and Engineering

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Effects of nanosilica on fine migration and location distribution of blockage at different pH and temperatures: Modelling and experimental studies

2022

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There are a lot of fine particles in sandstone reservoirs that are not strongly bonded to the rock's surface. These fine particles move with the fluid flow and cause formation damage and facilities' erosion. An effective method for preventing fine migration is using nanoparticles (NPs). In this study, modelling and experimental methods were utilized to investigate NPs' effect on fine migration. The Derjaguin–Landau–Verwey–Overbeek (DLVO) theory was used to model NPs' effect on the stability of fines on the rock's surface. Long sand packs were utilized to study the silicon dioxide NPs' effect on fine migration and location distribution of blockage in experiments at different pH and temperatures. Modelling results showed that the presence of NPs reduces the zeta potential of fine surfaces from −27.6 and −35.6 mV to −1.8 and −6.7 mV at pH = 8 and pH = 12, respectively. Based on the DLVO theory, it was concluded that NPs increase the particles' stability on the rock's surface. The experimental results showed that although fine migration increases with an increase in pH and temperature, the presence of SiO2 decreases it by 58% and 38% at pH = 8 and 12, respectively. The results showed that the performance of NPs reduced with an increase in pH and temperature. It was shown that the presence of NPs influences the location distribution of pressure drop and leads to permeability being more homogeneous in porous media during low salinity water injection.

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Retrofit optimization of building systems for future climates using an urban physics model

Aliabadi

Chen

Yang

et al. 2023

Building and Environment

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Ali Madadizadeh

The use of nanotechnology to prevent and mitigate fine migration: a comprehensive review

Synergetic effects of PVP/HEC polymers on rheology and stability of polymeric solutions for enhanced oil recovery at harsh reservoirs

Elemental analysis of scale inhibitors' effect on water incompatibility in carbonate reservoirs: Modeling, bulk and core scales studies

Effects of nanosilica on fine migration and location distribution of blockage at different pH and temperatures: Modelling and experimental studies

Retrofit optimization of building systems for future climates using an urban physics model

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