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Farsa Group LLC provides production support through raw material, in process, and finished product analysis. We are able to produce vital chemicals and support production with around-the-clock analysis by our well-trained analytical chemists with an emphasis on quality

2 Scale management

Recurring industrial scale control will allow the equipment, appliances, and machinery to perform at an optimal level and will prolong their life of functioning. Without the use of an industrial chemical for scale control, descaler, or preventer to remove and prevent the buildup of scale deposits, the temperatures of machinery and equipment can be affected and possibly lead to increased energy use and therefore increased costs. When industrial equipment has a controlled scale, this system is more efficient and will save money for the owner due to lower energy consumption making it a more valuable piece of equipment.  
Wax inhibitors are substances capable of building into wax crystals and alter the growth and surface characteristics of the crystals. One effect utilized in crude oil production is the reduced tendency of the crystals to stick to metallic surfaces such as pipe walls.
Asphaltenes deposition remains the most challenging flow assurance issue in oil production processes. Asphaltene-related problems such as formation damage, deposition in pipelines, stabilization of water-in-oil emulsions, and catalyst deactivation are the results of asphaltene structure, crude oil composition and operating conditions. In this chapter, we discuss the chemistry of asphaltenes and advancements related to the structure and mechanism of asphaltene aggregation, laboratory testing and modeling efforts to predict and select chemicals for field implementation and case studies of technologies applied to prevent or remediate asphaltene deposition issues in oil fields around the world.
Gas hydrate is a key consideration in flow assurance and plays a critical role in the economics of petroleum production systems. Unlike most other solids considered in flow assurance, the gas hydrate can cause rapid plugging and is considered the most disruptive and hazardous if the risk materializes. Effective hydrate management in the oil/gas industry relies on shifting the hydrate phase diagram, eliminating water, or keeping the hydrates dispersed if they do form.
Corrosion control strategy involves two facets, namely corrosion control against production fluids and corrosion control against seawater. The use of chemical inhibitors for corrosion control against production fluids is widespread in the oil industry.
Foam control employs unique blends of molecules that reduce the ability of foam bubbles to form in industrial wastewater processes. Wastewater systems need to be well maintained to be effective and operate at maximum efficiency. To ensure this, the right antifoams and defoamers must be chosen.
Demulsifiers, or emulsion breakers, are a class of specialty chemicals used to separate emulsions, for example, water in oil. They are commonly used in the processing of crude oil, which is typically produced along with significant quantities of saline water.
As reservoirs begin to water out, hydrogen sulphide can become an issue when processing returning fluids. The gas is toxic in relatively low concentrations and the risks to the workforce need to be addressed as soon as its' presence becomes known. Hydrogen sulphide is considered a broad-spectrum poison, meaning that it can poison several different systems in the body, although the nervous system and respiratory systems are most affected.
Degassing, also known as degasification, is the removal of dissolved gases from liquids, especially water or aqueous solutions. There are numerous methods for removing gases from liquids.  Gases are removed for various reasons. Chemists remove gases from solvents when the compounds they are working on are possibly air- or oxygen-sensitive (air-free technique), or when bubble formation at solid-liquid interfaces becomes a problem. The formation of gas bubbles when a liquid is frozen can also be undesirable, necessitating degassing beforehand.
Well acidizing is achieved by pumping acid into the well to dissolve limestone, dolomite and calcite cement between the sediment grains of the reservoir rocks.  Acidizing involves pumping acid into a wellbore or geologic formation that is capable of producing oil and/or gas. The purpose of any acidizing is to improve a well's productivity or injectivity. There are three general categories of acid treatments: acid washing; matrix acidizing; fracture acidizing.
It is blend of Fine filtration with high stream rely upon Drain valve size to expel strong particulate defilement. Plant is intended to treat the oil in Off-line re-flow mode which can be connected with Transformer Oil Storage tank and Transformers.
Farsa Group LLC provides smart chemistry-based water treatment solutions, tailored to specific circumstances for mining, oil & gas, food & Beverage, power & energy, manufacturing, utility, and municipal water systems. We bring a total service concept to specialty chemical programs focusing on agreed outcomes. Our goal is to provide the most effective total treatment program available - one that is designed for your particular system and tailored to produce results.
Our in-house laboratory provides midstream and downstream testing and analytical solutions for petroleum, natural gas and petro-chemical industry and value chain. A comprehensive range of services and solutions to support the delivery of high-quality petroleum and chemical products to global markets.
Farsa Group LLC has broad mixing capabilities for wet and dry blends. Stainless steel or carbon steel vessels are used in toll ribbon blending and toll ribbon mixing of liquids and solids at our facilities. Ribbon blenders and plow mixers with high-speed choppers are used to combine any number of products.
Farsa Group LLC is capable of disinfectant production, which is a chemical substance or compound used to inactivate or destroy microorganisms on inert surfaces. Disinfection does not necessarily kill all microorganisms, especially resistant bacterial spores; it is less effective than sterilization, which is an extreme physical or chemical process that kills all types of life. Disinfectants are generally distinguished from other antimicrobial agents such as antibiotics, which destroy microorganisms within the body, and antiseptics, which destroy microorganisms on living tissue. Disinfectants are also different from biocides—the latter are intended to destroy all forms of life, not just microorganisms.