Difference between revisions of "Team:Szeged SA RMG"

Line 157: Line 157:
 
</body>  
 
</body>  
  
<footer>
+
<center>
 
<img src="//www.methungeny.com/images/footer.jpg" usemap="#image-map">
 
<img src="//www.methungeny.com/images/footer.jpg" usemap="#image-map">
  
Line 178: Line 178:
 
     <area target="_blank" alt="NCIMB" title="NCIMB" href="http://ncimb.com/" coords="1205,113,1458,217" shape="rect">
 
     <area target="_blank" alt="NCIMB" title="NCIMB" href="http://ncimb.com/" coords="1205,113,1458,217" shape="rect">
 
</map>
 
</map>
</footer>
+
</center>
 
</html>
 
</html>

Revision as of 19:06, 1 November 2017

Introduction

Methane is the second most emitted greenhouse gas with its 10% part in the whole greenhouse gas emission. Our product would serve as an alternative to the existing infrared Methane Biosensors mostly in: industrial production (e.g. to help prevent accidents caused by mine explosions); indoor air quality supervision mainly in developing countries where households are heated by biogas plants; the exploration of yet unknown natural methane sources (e.g. in swamps). In our project we would like to develop a Methane Biosensor. The sensor itself would be a transformed Bacteria.

Our system is quite basic: if there is methane (or methanol) in the bacteria's immediate environment, the medium of the bacteria is going to manifest a basic color change

Video Presentation

Miklós Radnóti Experimental High School Szeged Scientist Academy Szegedi Tudományegyetem Természettudományi és Informatikai Kar Nemzeti Tehetség Program Biocenter Bio-rad Bio-science Hungary Szegedi Biológiai Kutató Központ Calysta Kész Emberi Erőforrás Támogatáskezelő DSMZ Geneious Invitrogen MaBiTe NCIMB