GAS PROCESSING
Gas Processing
PSPL is a seasoned engineering partner who is transforming the oil and gas sector by implementing substantial improvements in the gas upstream.
Such circumstances necessitated the provision of dynamic and adaptable services. The presence of intrinsic contaminants in gas not only accelerates the corrosion rate of pipelines but also reduces the heating value of the gas, degrading its quality. These pollutants must be eliminated before the gas is sent to a processing plant.
Creating a comprehensive, adaptable hydrogen sulfide (H2S)/Water (H2O)/Carbon di-oxide (CO2)/recuperation arrangement/fog expulsion needs more than a framework, medium, and hardware – it necessitates aptitude. PSPL' provides both liquid and solid media desulfurization advancements to improve/dry out gas streams and expel gas having varying degrees of sulfide.
Why Choose Us
Complete Range of Engineering Services
PSPL provides a variety of engineering services, ranging from early phase study through detail engineering, as well as specialized engineering that includes modifications, system life, revamping studies, and process enhancements. We employ powerful modeling devices to detect and validate framework execution as needed, and optimum output is technology-oriented for gas processing packages.
End To End System Responsibility
PSPL may accept full system responsibility for the liability and its system, as well as provide comprehensive turnkey systems engineering assistance. Clients are searching for a focused, versatile, and adaptive engineering partner as a result of fierce competitive market insights. PSPL showed to be a dependable engineering source for preliminary phase read-up analytics and thorough design for Greenfield and brownfield projects.
Best Engineering Practices
PSPL firmly believes in and adheres to the finest engineering processes available in order to give the greatest integrated solutions and concepts for long-term operations. Our conceptual and FEED engineering studies integrate process stimulations such as Continuous and Dynamical flow assurance, and selection of materials, as well as corrosion simulations, to assess the life cycle, weight, and cost-effective predictions.
Specialized Packages
Oil and gas manifolds move oil or gas from the separator to a crude oil burner for dumping, a gauge tank or surge tank
for measurements or storing, or a production line without interrupting the flow. The oil and gas pipeline also separates
the testing equipment properly to prevent flow disruption if the equipment is temporarily removed from service.
Desanders are inserted after the degasser and shale shaker. The desander collects and discards minute particles and bigger drilled
solids that have gone past the shaker screen. The partly drilling fluid is dumped into the downstream compartment.
A slug catcher is a piece of stationary equipment used in upstream oil production plants to reduce slugs in oil and gas pipelines.
Natural gas, Crude oil, water, salts, and other substances are found in fluids recovered from oil and gas sources. It safeguards
downstream equipment and pipes from harmful liquids and controls enormous liquid volumes generated by pigging efficiently.
We manufacture entire gas compressor kits that are ready to use in all gas compressing and transmission applications. PSPL designs
and combines each turbomachinery package utilizing quality and safety methods that are globally acknowledged as outstanding standards.
It is one of the most significant systems in any oil plant, where fuel gas is the primary fuel for the whole plant since natural gas
is the most widely utilized fuel in hydrocarbon treatment plants. The fuel gas is supplied via pipes or containers holding saturated gas
from gas treatment plants.
Removing water vapor from natural gas systems minimizes pipeline corrosion and prevents line obstruction caused by hydrate development.
To prevent free-water formation, the water dewpoint must be lower than the lowest pipeline temperature. When acid gases are removed via
amine treatment, the gas becomes water-saturated and must be dried before reaching the pipeline.
Natural Gas Liquids Recovery is a process for separating ethane and heavier hydrocarbons (C2+) from natural gas. Air Liquide Engineering
& Construction delivers high recovery and high efficiency Natural Gas Liquids (NGL) processes, while optimizing capital and operating costs for customers.
Fractionation of Natural Gas Liquids (NGLs) is a method used in gas processing facilities to segregate hydrocarbon
mixes from natural gas into specific products. pentanes, butane, propane, and ethane, are examples of NGLs.
When transporting natural gas over long distances or when pipelines are not accessible, the gas can be delivered as LNG.
Natural gas is routinely stored and transported in liquid form since its volume is reduced by about 600 times when compared
to the gaseous form. LNG must be re-gasified before it can be utilized for fuel, power production, heating, cooking, and other purposes.
In terms of cost, complexity, and operational relevance, the natural gas liquefaction process is the most important component in LNG facilities.
Because of its low temperature, natural gas liquefaction is an energy-intensive process. Compressor units are one of the most important aspects
of reducing the energy consumption of the natural gas liquefaction process. The Propane Pre-cooled Mixed-Refrigerant (C3-MR) Propane Pre-cooled
Mixed-Refrigerant method is the most extensively utilized natural gas liquefaction technology in the LNG industry.
Gas sweetening is a procedure that must be carried out in order to eliminate hydrogen sulfide (H2S) from gases. Amine treatment is applicable in refineries,
petrochemical facilities, natural gas processing plants, and other sectors. Gas sweetening procedures remove impurities from the gas, making it safe for
transit and consumption.
Sulfur Recovery Units utilize volatile components from sweetening units and sour-water strippers as feedstock. The feedstock
is fed into a unique burner system and sub-stoichiometrically burned with air.
Claus Units have been operating for a long time and employ volatile components from sweetening units and fermented strippers as feedstock.
The feedstock is fed into a unique burner system and sub-stoichiometrically burned with air.
In the oil and gas business, indirect immersion heaters are primarily used to heat process fluids. Unlike direct fire-tube heaters, the
process is carried out indirectly via a bath (utility bath) rather than employing a flame or furnace to release heat. Something like a
bath ensures even heating and decreases the possibility of hotspots.
Nitrogen generators use the Pressure Swing Adsorption method to generate a continuous trickle of nitrogen gas from pressurized gas.
Two towers loaded with carbon molecular sieve are used to help with the procedure. The air enters the tower from the bottom and rises
through the CMS. The CMS will absorb oxygen and other tiny gases in that sequence, allowing nitrogen to flow through freely.
A metering skid, which is commonly used in natural gas pipelines, is made up of two or more meters and a pipeline valve. The measured
flowrate can be either a mass flowrate or a volumetric flow rate, depending on the technology used and the Client Specifications.
Additional treatments are frequently performed by the metering skid, such as pressure reduction via valves, filtering (depending on
fluid purity needs for measuring), and flow control via flow control valves. Fiscal metering skids frequently contain a calibrating system (Prover).
