CHengdu Wuhuan EAJV- The future of Natural gas
With the advent of horizontal drilling and liquid fracturing, new sources of natural gas are being developed the world over on a scale never seen before.
A lot of these new natural gas production sites are far from existing transport infrastructure which makes these new sources of gas uneconomical to exploit. .
Examples of huge quantities of natural gas being flared and only LPG being commercialized because of lack of transport infrastructure abound in Africa, Latin America, the Middle East and now in North America. LNG and GTL both provide solutions to this infrastructure issue. In a few words, if there is gas it has value and it should not be flared, it should be valorized
Think of it this way, if you have a gas field producing 2 million cubic feet of natural gas per day you can recover the LPG then liquefy the natural gas and ship by truck 22,000 gallons of LPG per day. That’s only three LNG tanker trucks per day.
Turning Stranded Natural Gas Field into Profit
On the other hand if you have 35 million cubic feet of natural gas per day you can produce 3000 barrels per day of GTL of which 75% will be high quality, zero sulfur GTL Diesel. From 1.5 million to 240 million cubic feet per day of natural gas EAJV has the LNG or GTL solution for you.
Technologies
GTL Technology
Historically GTL production has been prohibitively expensive as compared with crude oil refining, however the application of horizontal drilling and fracking has translated.
LNG Technology
The world has enormous quantities of natural gas, but most of it is far from where the gas is needed. To move this environmentally friendly fuel across oceans, natural gas must be converted into liquefied natural gas LNG.
Flare Gas Recovery
Flaring is an unproductive waste of a valuable, non-renewable resource and a significant source of carbon dioxide and methane emissions.
H2 Technology
Steam reforming of hydrocarbons is conventionally used for feedstock production for methanol synthesis, hydrogen production, ammonia synthesis and Fisher-Tropsch synthesis.
Our Team
EAJV corporate and worldwide marketing office is in the Greater Toronto Area, the company has its technical center in Montreal and a subsidiary in Chengdu, China.
Capabilities
The GTL process is complex and, therefore, requires advanced simulation and design capabilities. EAJV has the experience in mastering the following softwares in order to ensure proper process efficiency.
Simulation and Modeling
For each part of the processes in a GTL plant, EAJV uses advanced simulation softwares such as ASPEN, HYSYS, PRO II and HTRI.
Engineering Design
EAJV uses design softwares such as AutoCad, Cadworks, PDMS, ANSYS and Solidworks.
Engineering Standards
EAJV uses and applies the following standards to all its equipment and systems.