Google analytics tag

Showing posts with label Biofuels. Show all posts
Showing posts with label Biofuels. Show all posts

Tuesday, April 17, 2012

Alternative energy is a myth


World is busy developing alternative to fossil fuel in order to reduce anthropic Greenhouse gas emissions to avoid global warming. In fact all forms of alternative energy sources except nuclear energy are basically ‘solar energy’ from the sun, in one form or another. Sun has been supplying energy from the time earth was born. It has conducted ‘photosynthesis’ by supplying light energy and converted atmospheric carbon dioxide and water into glucose for plants, animals and human beings. The excess carbon from the ‘Carbon cycle’ has become fossil fuels under the earth over a period of time. The fossil fuel is the result of sun’s energy or solar energy. We unearthed fossil fuels and burnt them to extract energy to run our power plants or run our cars. In fact fossil fuel is also a form of ‘Biofuel’ and technically there is no difference between them except fossil fuel formation takes millions of years.Fossil fuel is nothing but a source of Hydrogen with carbon backbone. All forms of alternative energy we are currently trying to develop such as PV solar, solar concentrators, solar thermal, geothermal energy, wind energy and bioenergy etc, originate from solar energy. The word alternative energy is a misnomer because all these energy are fundamentally solar energy in one form or another. Solar energy is a radiation of nuclear fusion reaction of Hydrogen taking place in the sun. Two isotopes of Hydrogen called Deuterium (with one proton and one neutron) combine to form a Helium 3 atom and Neutron with release of large energy. Deuterium is non-radioactive and can be extracted from seawater. But this process could not be duplicated commercially for power generation. It is the safest and cleanest form of energy. In other words, all forms of energy including solar energy come from Hydrogen atom. That is why Hydrogen has become a potential fuel source in the future. However, developing a commercial technology for the production and usage of Hydrogen at a rate cheaper than fossil fuels with zero greenhouse emission has been elusive so far. Generation of Hydrogen from water by Photo electrolysis using a direct sunlight using a Photo catalyst is a promising technology. But duplicating Nature to generate large amount of energy using tiny amount of Hydrogen atom seems to be a distance dream. Nature knows the best. We human beings can use small energy generation technologies such as solar and wind to meet our small energy needs. “There is enough to meets everybody’s need but not everybody’s greed”,Gandhi said. Exponential growth of population and industries has forced us to look for large power generation and fuel usage at the cost of serious environmental degradation and future generations. Only smarter and cleaner technologies will help sustain the future. Politicians and policy makers should understand various technologies and their implications rather than advocating short sighted and popular energy policies.

Thursday, March 29, 2012

Will Bioethanol and Hydrogen replace Gasoline?

Many universities, research and development institutions and industries are studying various biological processes to produce Hydrogen using different sources of organic materials such as Starch, Glucose, Bioethanol and cellulosic materials. However many of these technologies are at “proof of concept’ stages. Moreover these processes depend upon location and availability of specific raw materials in these locations. For example, Brazil has been very successful in the production of Bioethanol form sugar cane molasses and using it as the fuel for cars. Brazil has also successfully utilized Bioethanol as a substitute for Naphtha as a feedstock for the production of Ethylne, a precursor for several plastics such as PVC and Polyethylene and Glycols. Bioethanol is a classic example of biological process than can successfully substitute Gasoline. Many industrial raw materials are also derived from Sugar cane and Corn Starch. The main issue in substituting Gasoline with bio-chemicals is political in many countries. India has been producing industrial alcohol from sugarcane molasses for number of years but they are not be able successfully substitute Gasoline with Alcohol.They have to fix the price of Alcohol in relation to the price of Gasoline or Naptha.This pricing mechanism is critical. We have been using coal as the raw material for several decades not only to generate power but also to produce host of organic chemicals and fertilizers such as Urea, coal tar chemicals such as dyes and pharmaceuticals. These industries later switched over to oil and Gas. Now the world is facing depletion of fossil fuels at a faster rate. Greenhouse emission and global warming threats are looming large. There is a clear sign that the energy prices will sharply increase in the near future. Renewable energy projects are at early stages and their initial costs and cost of productions are much higher compared to fossil fuel based power generation. However biological processes and biofuels offer a glimpse of hope to get over the energy crisis and also to mitigate greenhouse gas emissions. Production of Biohydrogen using bio-organic materials such as starch, glucose and cellulosic materials are under development, but it may be a decade before they can be successfully commercialized. But production of Bioethanol and Biogas are well-known technologies. Generation of Biogas from agricultural waste, food waste and municipal solid waste and waste water are known technologies. However Methane the major constituents of biogas,is a potential greenhouse gas.The Biogas can be easily cleaned from other impurities such as Carbon dioxide and Hydrogen sulfide and can be readily converted to Hydrogen gas by steam reformation. This will substantially increase the energy efficiency of Biogas plants. Many developing countries can adopt these technologies on a wider scale and promote Bioethenaol and Biogas generation to substitute petroleum oil and gas. They can convert Gasoline cars into 100% Bioethanol (anhydrous) or blended with gasoline fuels for cars.These technologies are commercially available.Number of countries in Asia, Africa and South America produce starches such as Tapioca starch for industrial applications.Vegetable oils such as Jatropa and Castor oils are excellent for bio-fuels and lubricants.Though it is theoretically possible to substitute most of the petrochemicals with bio-organic materials,it is important that food products such as corn should not be diverted for commercial applications such as fuel. The coming decade will be a challenging one and Hydrogen generation from various biological organic materials can substitute fossil fuels at a much faster rate. A judicial mix of bio-energy and renewable energy such as solar and wind should help the world to overcome the challenges.