ENGlobal’s synthetic gas experience includes key facilities design and consulting projects for gasification, gas-to-liquids, hydrogen facilities, ammonia facilities and more.
Within the area of gasification of biomass, ENGlobal has developed a study report determining the feasibility of designing, purchasing and constructing a Biomass to Energy (BTE) project in the United States. The study included analysis of the design, procurement and construction of the BTE plant and a preliminary heat and material balance to determine how much power could be generated from the syngas.
ENGlobal has developed a process design package for a preliminary feed solid (coal or coke) gasification facility based on a proprietary process to manufacture synthesis gas by partial oxidation of carbonaceous substances for the production of refined products diesel and naphtha, or in turn, methanol and ammonia. The design package features a comprehensive process description key.
Gas-to-liquids is another emerging source for alternative fuel production. ENGlobal has completed a feasibility study for the use of Fischer-Tropsch (F-T) reactors to convert natural gas into liquid transportation fuels, specifically ultra-low sulfur diesel. In this process, the natural gas is put through a steam-methane reformer to create SYNGAS (which is a mixture of carbon monoxide and hydrogen). The SYNGAS then reacts with a catalyst in the F-T reactor to form F-T wax. The wax is then hydrocracked and used in traditional refining technology to produce transportation fuels.
ENGlobal’s services in the synthetic gas arena range from conceptual engineering and feasibility studies to detailed design, permitting, construction management, program management and third party operations and maintenance. With our experience in refining and petrochemical processing, ENGlobal provides best in class solutions to our clients on renewable projects by incorporating our refining and petrochemical expertise into these projects.
ENGlobal is completely equipped with the latest process and mechanical modeling tools, including HAZOP software and facilitation as part of the Process Safety Management (PSM) process.