EAJ and its partners are experts in the design, engineering and fabrication of process packages for oil and gas projects or other industries.
In this regard, we use the latest technologies in the world along with the highest level of up-to-date standards in projects.
Our group design a diverse range of process packages specifically designed for oil and gas projects, allowing clients to see the expected results from these projects.
To demonstrate our team’s capabilities, we will surprise our customers with on-time delivery, unmatched quality and competitive pricing.
We are committed to meet all our customers’ requirements in the best possible way and guaranteeing their satisfaction.
PSA Package
Design, Manufacturing and Supply
EAJ uses the capabilities and expertise of its partner companies in designing, manufacturing and providing all the required items for the packages it offers to customers.
In our group, we strive to meet your needs with the highest standards and unparalleled quality, using new technologies.
In case of requesting by the customer, we can review the existing design and propose a new modify customized option to meet their specifications.
To demonstrate our competence, we can show you numerous delivery orders that have been executed by our team around the world.
Customers who order process packages to us can be sure that they are dealing with a professional, experienced and highly productive team who will do their best to ensure their satisfaction.
EAJ group hydrogen separators/ purifiers operate on the Pressure Swing Adsorption process, also known as PSA Technology. This technology is based on the selective adsorption phenomena of gas molecules under pressure on the surface of highly porous and efficient adsorbent, In the case of Hydrogen generation the Adsorbent is Carbon-based Molecular Sieve (CMS). When hydrogen and carbon dioxide from the water shift reaction are used for hydrogen generation, the adsorption towers are filled with CMS.
The molecules of carbon dioxide, moisture and other gases are adsorbed on the surface of CMS. Hydrogen which is not adsorbed by CMS passes through the adsorption tower and is collected in a vessel.
For continuous generation of hydrogen multiple adsorption towers are provided and are operated with auto change-over valves controlled by a PLC. After saturation of one tower with carbon dioxide the process automatically changes over to the next tower and thus the hydrogen production is continuous.
Hydrogen production through Steam Methanol Reforming (SMR). The methanol feedstock is mixed with water in specified ratio and pressurized. This mixture is passed through evaporator, metering pump and super heater.
The hot gas mixture is then fed into a catalytic reactor. The reaction of methanol reforming and the water shift reaction take place in the catalytic reactor of fixed beds simultaneously to form a mixture of H2 and CO2.
Hydrogen is then extracted using the Pressure Swing Adsorption process. We build hydrogen production plants using methanol or methane as feedstock. Plant capacity is available from a few hundred to several thousand cubic meters per hour.
Bio-gas consists CH4 and CO2 and small amounts of H2S and NH3, can be used as a fuel for power generation in Power Plants through processes and convert into electricity.
Our technology is sustainable and environmentally friendly option.
Nitrogen, Oxygen and sometimes Argon will be produced in our ASU package.
Through processes like Cryogenic distillation, PSA, and membrane, we can offer the best solution with the most advantages in Cost, Time and Quality to your order.
EAJ can provide clean, oil free and dry air for instruments in oil and gas plants and also other industries with modern designed Instrument Air Packages.
Flaring is an unproductive waste of a valuable, non-renewable resource and a significant source of carbon dioxide and methane emissions.
To recover the wasted income from flared gas, our group Technology offers flare gas recovering technologies to recover valuable resources and reduce the flare gas to achieve near-zero flaring.
Steam reforming of hydrocarbons is conventionally used for feedstock production for methanol synthesis, hydrogen production, ammonia synthesis and Fisher-Tropsch synthesis. Syn-Gas or Hydrogen can be produced using the Steam Methane Reforming process.
In the case of hydrogen production, the methane reforming step is followed by the Water Gas Shift (WGS) reaction. During that process the carbon monoxide part of the syn-gas produced is reacted with steam over a catalyst to be converted into carbon dioxide (CO2) and hydrogen. The WGS reaction is first produced at a temperature of 350˚C which is called High Temperature Shift (HTS). The reaction is further completed at a lower temperature 190˚C to 210˚C Low Temperature Shift (LTS).
We produce small to medium size SMR systems in the range of 50,000 Nm3/h to 200,000 Nm3/h of syn-gas. We also produce small SMR system for the production of hydrogen.
We provide digital experience services to startups and small businesses. We help our clients succeed by creating brand identities, digital experiences, and print materials. Install any demo, plugin or template in a matter of seconds.
The main challenge of this project is to create brand identities, digital experiences, and print materials that communicate clearly achieve marketing goals, and look fantastic. beauty and technical performance.
The main challenge of this project is to create brand identities, digital experiences, and print materials that communicate clearly achieve marketing goals, and look fantastic. beauty and technical performance.
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