Add to ORKGThe article is devoted to research features of using of nanotechnology of cleaning up oily water by the way of forming organized environment in the system of “oily water - coalescing sorbent, modified polymeric cationic surfactant” at the surface of the sorbent of coalescing type
Oil-water separation is critically important for the water treatment of oily wastewater or oil-spill...
Primary objective of the paper is to represent the functionality of nanotechnology in Enhanced Oil R...
Chemical enhanced oil recovery (EOR) has been adjudged as an efficient oil recovery technique to rec...
Organic pollutants from volatile organic compounds (VOCs), synthetic organic compounds (SOCs), oil s...
The article discusses the features of the synergistic effect of the compositions of nanodemulsifiers...
Nanotechnology is widely recognized for having important applications in many industries, one of whi...
Nanoremediation approaches have been applied to remove oil from surface and ground water as oil spil...
Chemical methods of enhanced oil recovery (CEOR) are applied for improving oil recovery from differe...
Nanofluids gaining increased importance in science and industry including enhanced oil recovery. In ...
The threat of oil pollution increases with the expansion of oil exploration and production activitie...
This book describes the latest progress in the application of nanotechnology for water treatment and...
The increasing amount of oily wastewater discharges caused major challenges for current environmenta...
Nanotechnology covers a broad range of applications making it as the most important technology of th...
Combined with the actual demand of oil and gas exploration and development, this paper summarizes th...
Flexible and effective methods for oil–water separation are crucial for reducing pollutant emissions...
Oil-water separation is critically important for the water treatment of oily wastewater or oil-spill...
Primary objective of the paper is to represent the functionality of nanotechnology in Enhanced Oil R...
Chemical enhanced oil recovery (EOR) has been adjudged as an efficient oil recovery technique to rec...
Organic pollutants from volatile organic compounds (VOCs), synthetic organic compounds (SOCs), oil s...
The article discusses the features of the synergistic effect of the compositions of nanodemulsifiers...
Nanotechnology is widely recognized for having important applications in many industries, one of whi...
Nanoremediation approaches have been applied to remove oil from surface and ground water as oil spil...
Chemical methods of enhanced oil recovery (CEOR) are applied for improving oil recovery from differe...
Nanofluids gaining increased importance in science and industry including enhanced oil recovery. In ...
The threat of oil pollution increases with the expansion of oil exploration and production activitie...
This book describes the latest progress in the application of nanotechnology for water treatment and...
The increasing amount of oily wastewater discharges caused major challenges for current environmenta...
Nanotechnology covers a broad range of applications making it as the most important technology of th...
Combined with the actual demand of oil and gas exploration and development, this paper summarizes th...
Flexible and effective methods for oil–water separation are crucial for reducing pollutant emissions...
Oil-water separation is critically important for the water treatment of oily wastewater or oil-spill...
Primary objective of the paper is to represent the functionality of nanotechnology in Enhanced Oil R...
Chemical enhanced oil recovery (EOR) has been adjudged as an efficient oil recovery technique to rec...