Difference between revisions of "Directory:Texas Clean Fuels"

MyWikiBiz, Author Your Legacy — Thursday November 28, 2024
Jump to navigationJump to search
(Remove Google AdSense spot)
 
Line 11: Line 11:
  
 
    
 
    
<!-- This is how a Google ad template can be used. Of course, you'd replace this client ID with your own client ID. -->
 
 
<center>
 
<adsense>
 
google_ad_client    = 'pub-4781341637005814';
 
google_ad_width    = 468;
 
google_ad_height    = 60;
 
google_ad_format    = '468x60_as';
 
google_ad_type      = 'text_image';//2006-12-28: Centiare Directory space
 
google_ad_channel  = '2388332058';
 
google_color_border = '6699CC';
 
google_color_bg    = '003366';
 
google_color_link  = 'FFFFFF';
 
google_color_text  = 'AECCEB';
 
google_color_url    = 'AECCEB';
 
</adsense>
 
</center>
 
 
 
<br>    <!-- This is how you force a line break. -->
 
<br>    <!-- This is how you force a line break. -->
  

Latest revision as of 19:33, 30 March 2010

Texas Clean Fuels is a technology and equipment provider in the alternative energy industry, which is focused specifically on providing technology and equipment for the mass production of algae biomass as a feedstock for various different fuel and other applications.

History

TCF is based on a series of patent applications by its Founder, Jonathan L. Gal, who first became interested in the concept of fuel from Micro Organisms during 1990, while working as a lab technician in a vaccine development group at the National Institutes of Health.

To those who don't know much about microorganisms, vaccines, and/or fuel development, the connection between vaccine development and fuel production may not seem clear at first. Those with even a basic background in Biology, photosynthesis, and/or fuel development will see the connection more clearly.

While supporting the development of human vaccines against various microorganisms, Jonathan noticed that the primary immunogenic target of many vaccine candidates is the lipid molecules on the surface of the micro organisms. Such lipids come in a large variety of different types, but they share a common characteristic: an abundance of long chain carbon molecules that contain numerous, high energy carbon-carbon bonds.

When carbon-carbon bonds are combusted (ie: burned), a large amount of energy is released, which can be utlized by a variety of modern engines, including most importantly, various kinds of transportation engines that power everyday cars, trucks, buses, boats, ships, motorcycles, power plants, and etc. In fact, long chain carbon molecules go by another name in the energy industry: 'hydrocarbons'. 'Hydrocarbons' is another name for the category of molecules known more commonly as "oils" or "crude oil".




Photo gallery


References


External links

Share this page

<sharethis />

Geolocation

Template:Mapit-US-cityscale