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oil recovery technology Applications

  • Enhanced oil recovery treatment for oil and gas industry

    Enhanced Oil Recovery (EOR) is a broad O&G Industry term, but almost always involves some kind of water treatment processes. Whether you are trying to increase injectivity, kill bacteria, break emulsions or destroy polymers, MIOX has equipment to help. MIOX’s exclusive Mixed Oxidant technology turns your EOR site into an on-demand chemistry factory - eliminating middle men and lowering costs.

    By MIOX Corporation based in Albuquerque, NEW MEXICO (USA).

  • Enhanced Oil Recovery - Produced/ Impaired/ Wastewater

    WILSA® technology improves the efficiency of existing separation equipment in produced/ impaired water. The non-chemical ElectoWave Conditioning system supercharges Stokes Law to break emulsions, enhance coalescing, reduce viscosity and retention time. This allows traditional/ existing separators to function more efficiently and to either reduce or eliminated chemical programs used to achieve separation.

    By Hudson Industries based in Vienna, OHIO (USA).

  • Aquatech Enhanced Oil Recovery (EOR)

    In a Steamflood Enhanced Oil Recovery (EOR) process, steam is injected in the well, lowering the viscosity of heavy oil suitable for extraction through the production wells. The fluid from the wells is a mixture of oil, water and gas and goes through a separation system to separate the three. The separated produced water is heavily contaminated with dissolved solids and hydrocarbons. Aquatech’s Steamflood Enhanced Oil Recovery (EOR) Technology offers the integrated solutions for the treatment EOR produced water for boilers, generating a purified product that can be reused for the production and injection of steam. Our turnkey approach to treatment includes coordinating the logistics of wastewater removal off-site and any sludge disposal.

    By Aquatech International Corporation based in Canonsburg, PENNSYLVANIA (USA).

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    Wastewater technology for the oil exploration and refinery

    In the secondary recovery stage of an oil reservoir, process water plays a central role, just as in the extraction of natural gas. After the oil exploration, the produced water must be separated from the oil and gas. The process water needs to be prepared in order to be re-injected into the water cycle of production. For this purpose, highly efficient separation methods are required.

    By AWAS International GmbH based in Wilnsdorf, GERMANY.

  • Water treatment research for oil and gas industry

    The upstream oil and gas industry is increasingly becoming a water management industry. Globally, three barrels of water is extracted for every one barrel of oil produced. With effective management, this produced water can become a source of value, as disposal options become limited and environmental regulations tighten. New water treatment technologies will allow this water to be reused in waterflooding, enhanced oil recovery and hydraulic fracturing operations, in a market worth $5.2 billion in 2014. Managing the water used and extracted from unconventional resources, such as shale gas, tight oil, coalbed methane, heavy oil, and oil from ultra-deepwater offshore fields, will be a fast growing segment of this market. This section shows you in detail the different opportunities and strategies for these resources.

    By Global Water Intelligence (GWI) based in Oxford, UNITED KINGDOM.

  • High performance separation system for lube oil industry

    Many lube oil recovery processes create aqueous and hydrocarbon emulsions that are difficult to separate by means of conventional liquid/liquid separations technology. Accomplishing the desired separation requires that these emulsified droplets be captured. Conventional coalescers are unable to provide the degree of brightness and clarity associated with good separation due to the inability to capture and remove the most penetrating droplets that indicate carry-over. Pentair Porous Media technologies have been developed to address the inherent deficiencies of the conventional coalescers.

    By Pentair Filtration Solutions, LLC based in Conroe, TEXAS (USA).

  • Effluent wastewater treatment for refineries

    Aquatech has experience working with refinery effluent pollutants in the refinery market and offers the advanced petroleum wastewater treatment and recovery technology necessary for the refinery’s needs.

    By Aquatech International Corporation based in Canonsburg, PENNSYLVANIA (USA).

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    Industrial Solution for gasification & synthetic gas

    Gasification and synthetic gas production from various waste products are becoming increasingly important energy recovery technologies. Often, the synthetic gas contains various hazardous contaminants including H2S, HCl and other acids, heavy metals, and tars. The gas requires cleaning before it is introduced in the engine or boiler. Most of these processes generate significant concentration of tars. The tars can vary from very low molecular weight to large and complex chains.

    By Macrotek Inc. based in Markham, ONTARIO (CANADA).

  • Oil skimmers for food processing industry

    The food processing industry also has a broad range of applications for oil skimmer and waste oil recovery technology. From wash water sumps to waste water treatment pits, the AMBAR rope skimmer is versatile enough to be used in all types of applications and outperforms tube oil skimmer products.

    By Ambar Oil Skimmers based in Westwego, LOUISIANA (USA).

  • Aquatech Oil Sands-Produced Water Treatment

    For most oil sand recovery is accomplished with in-situ thermal processes like Steam Assisted Gravity Drainage (SAGD) and Cyclic Steam Stimulation (CSS), where steam and chemicals are injected to the liquefy the bitumen. The treatment and recycling of the produced water used in this process has a direct impact on the cost of oil production. Aquatech provides water treatment technologies that includes the recycling of the produced water used the process which has a direct impact on their the cost of oil production.

    By Aquatech International Corporation based in Canonsburg, PENNSYLVANIA (USA).

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    Applications and Air Pollutants Removed in the Energy (Power) Industry

    Wet scrubbers and Wet electrostatic precipitators for removal of sulfur dioxide and trioxide, ash particulate, NOx and mercury from coal fired boilers. Sulfur dioxide, NOx and particulate from oil fired boilers and diesel engines. Ash particulate from Biomass boilers including Bagasse type. Complete scrubber systems for sulfur dioxide removal using lime, limestone to gypsum quality and all sodium, magnesium and potassium chemistry scrubbing solutions including ammonia for ammonium sulfate production. For gypsum production, complete air sparging oxidation systems are incorporated in the scrubbers along with all needed auxiliary equipment. Waste Heat Recovery options with Q-Sense direct contact heat exchanger technology.  

    By Bionomic Industries Inc. based in Mahwah, NEW JERSEY (USA).

  • Water treatment for power plants

    The process of electricity generation from fossil fuels such as coal, oil and natural gas is water-intensive. Between 40-50% of all water abstracted and used in developed countries is used in the generation of electricity. Thus, a reliable, abundant and predictable source of raw water supply to a power plant is a critical factor in site selection. Water supplies are required to provide various process waters for the following essential main purposes such as make-up water, cooling water for steam turbine condensers, and auxiliary plant cooling water.

    The primary application of modern water treatment technology is to maintain the integrity and performance of the power plant. Critical plant applications have water purity or conditioning requirements that must be adhered to for safe, reliable and efficient power generation.

    Experience has shown that integration of water technology treatments with power plant design can be very important in reducing operational problems and component failures 

    At power plant worldwide there are increasing limitations on water availability and environmental restrictions on discharges. This is expected to promote measures for water conservation and to have an increasing influence on water treatment decisions. At power plant, the recycling of internal wastewater streams can extend from the recovery of individual high-quality waste streams, which can be reused either directly or after only limited treatment, through to the development of fully integrated water/wastewater treatment systems for zero liquid discharge. However, the application of reuse schemes requires site-specific assessment, as not all waters may be viable options for recovery.

    By De Nora Water Technologies based in Colmar, PENNSYLVANIA (USA).

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