4 On the other hand, the United http://www.selleckchem.com/products/sch-900776.html Nations Statistics show that the global CO2 emissions increased 44% between 1990 (20.69 billion metric tons) and 2008 (29.86 billion MT).5 Progressive depletion of non-renewable energy sources worldwide, together with the fact that their use has resulted in environmental deterioration
and public health problems, has led to development of new renewable energy harvesting technologies.6 and 7 Hydrogen is considered an ideal alternative fuel to the current energy scenario due to its high-energy content and non-polluting nature.8, 9, 10 and 11 It is a clean and environment friendly fuel that produces only water when combusted with oxygen. It is a high-energy fuel (122 kJ/g) than hydrocarbon fuel.12 Approximately 95% of commercially produced hydrogen comes from carbon containing raw materials, primarily fossil in origin.13 Moreover, the petroleum reserves of the world are depleting at an alarming rate.14 Due to the depletion of fossil fuel and emission of
greenhouse gas (CO2) during conventional hydrogen production process, biological hydrogen production from biomass has been recognized as an eco-friendly and less energy intensive process to produce hydrogen compared to photosynthetic/chemical processes.15 selleck chemical Thermophiles are organisms capable of living at high temperature. These organisms do not only survive but might even thrive in boiling water.16 The ability of thermophilic bacteria to grow at high temperature and to produce stable extracellular enzymes was attributed to the probability of increasing their enzyme excoriation and activity by means of genetic manipulation. Therefore, these microorganisms were the first candidates for massive enzyme production for industrial applications.17 Thermophilic anaerobic fermentation processes hold tremendous potential for the forthcoming generation as well as commercial production PDK4 of hydrogen fuel.18 Hence, in view of the above, we have isolated a Pseudomonas stutzeri
from soil near thermal wells at Mettur power station, Salem, Tamil Nadu, India. The identified strain was studied for its ability to produce hydrogen using mango juice effluent as a preliminary study, in order to reduce the cost of hydrogen production by using synthetic source starch as well as sucrose. Thermal soil samples were collected from soil near thermal wells at Mettur power station, Tamil Nadu, India. One gram of thermal soil was dissolved in 100 ml distilled water. Serial dilution was carried out as per the standard procedure.19 Serial dilution technique was used to obtain pure cultures. In order to be sure to obtain pure isolates, serial dilution steps were repeated several times. The isolate was cultivated in the solid nutrient agar medium containing Peptone –1 g, Beef extract – 3.0 g, Sodium chloride – 5 g, Yeast extracts – 2.0 g, Distilled water – 1000 ml, pH 7.4 ± 0.2.