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Category Archives: Hydrogen energy

A new Hydrogen atom- a source of cheap energy?

Hydrogen has been accepted as a source of clean energy for many reasons. Hydrogen can eliminate anthropic Greenhouse Gas  into the atmosphere and stop global warming. It has high energy content than any other fossil fuels we are currently using, making it an efficient fuel. The combustion product of Hydrogen is only water which is   recyclable. Many people, Governments  and institutions around the world are trying develop  cheaper methods of generating Hydrogen from various sources both renewable as well as non-renewable. The non-renewable sources are supposed to facilitate a smooth transition from fossil fuel economy to Hydrogen economy.

However, all attempts to generate Hydrogen at a cost lower than the projected cost of $ 2.50 per kg by DOE has not been successful, even though many recent technologies are promising. Meanwhile massive investments are made on Renewable Energy including wind, solar and biological all over the world. Generating Hydrogen from water using Solid Polymer Membrane Electrolyzer is a known technology using renewable energy sources. One can easily deploy such systems for commercial applications even though it is now expensive.

Many people and institutions are also claiming ‘free energy’ sources with or without generating Hydrogen. In some cases researches are claiming an abnormal production of Hydrogen using ‘Cold plasma’ or ‘Plasma electrolysis’ of water, as much as 800% more than the theoretical values. Some companies claim low energy consumption using photo- catalyst to generate Hydrogen  using direct sunlight and water. Hydrogen generation using renewable sources is a distinct possibility to cut the cost of Hydrogen in the long run. However, the world is in hurry to develop a cheap and sustainable method of Hydrogen generation without any greenhouse gas emissions.

One US based company is claiming to have invented a new Hydrogen atom which has not been reported before in the literature. According to the inventor, this new atom of Hydrogen is called ‘Hydrino’.He has presented a detailed theory called ‘Grand Unified Theory’   that predicts catalysts that allow energy to be extracted from lower energy state of Hydrogen atom. They have demonstrated the process using a proto type in the laboratory and their claims have been validated by an independent Laboratory after conducting trial runs and analyzing the results using spectrum analysis and other techniques.

The process involves a generation of Hydrogen by using electrolysis of water. The resulting Hydrogen is then reacted with a proprietary solid catalyst developed by the company. According to the company,

“Since certain proprietary catalysts cause the hydrogen atoms to transition to lower-energy states by allowing their electrons to fall to smaller radii around the nucleus with a release of energy that is intermediate between chemical and nuclear energies, the primary application is as a new primary energy source. Specifically, energy is released as the electrons of hydrogen atoms are induced by a catalyst to transition to lower-energy levels (i.e. drop to lower base orbits around each atom’s nucleus). The lower-energy atomic hydrogen product called “hydrino” reacts with another reactant supplied to the reaction cell to form a hydride ion bound to the other reactant to constitute a novel proprietary compound. Alternatively, two hydrinos react to form a very stable hydrogen-type molecule called molecular hydrino. Thus, rather than pollutants, the byproducts may have significant advanced technology applications based on their stability characteristics. For example, hydrino hydride ions having extraordinary binding energies may stabilize a cation (positively charged ion of a battery) in an extraordinarily high-oxidation state as the basis of a high-voltage battery. Further, significant applications exist for the corresponding molecular hydrino wherein the excited vibration-rotational levels could be the basis of a UV laser that could significantly advance photolithography and line-of-sight telecommunications. A plasma-producing cell based on the extraordinarily energetic Process has also been developed that may have commercial applications in chemical plasma processing and as a light source.”

The company claims that an average generating capacity of a system will be 1000kw, with installed cost at $1000/kw with fuel cost at less than $0.001/kw with zero greenhouse emission.The solid catalyst is regenerated and recycled. The cost of Hydrogen from electrolysis becomes insignificant due to generation  of large excess thermal energy, to generate power.

The above claims are too attractive to ignore and it could be a game changer in the energy industry. The output energy is more than the theoretical values calculated,  thus violating the Law of Thermodynamics. This excess energy is attributed to the presence of ‘Hydrino’. However, one has to be open to new ideas because science is ever-changing and even well-established theories and concepts are challenged as Science evolves with new discoveries and inventions.

 

 

 

Water Fuelcell-a panacea for energy problems?

Stanley Meyer, a freelance inventor from USA demonstrated a car that ran on water, according to an Equinox programme that was televised in 1995. Stane Meyer’s dune buggy ran 100 miles from 1 gallon of water. He claimed that water would be the fuel that could revolutionize the auto industry in America. However, his tragic death in 1998 brought the issue to a closure.  Many people and institutions are still trying to replicate his invention at least partly and claiming success.  He received a   number of patents based on his inventions. He worked nearly 30 years on his invention before he began to work on a book titled, “With the Lord, there is a purpose” describing his “faith walk” with the Lord to fulfill end-time Prophecy.  He continued with his speaking engagements throughout the world.  However, such ‘free energy’ devices are still not getting the approval of the larger scientific community as well as Government agencies for some reasons or other. According to Stanley Meyer, “the law of Physics establishes a proven function based on ‘Pre-set’ conditions…change any of the conditions and the Law no longer applies….A new law emerges in the consciousness of physics. Why? Because atoms possess intelligence—-Performing ‘what if’ logic function under different ‘preset’ conditions.” His claims were based on scientific principles and explanations.  Based on his invention, many of ‘Electrolyzing devices’ appeared in the market.  They supply Do It Yourself  kits that can be fitted into a car to cut Gasoline consumptions; but they do not entirely  substitute Gasoline like Stanley Meyer demonstrated. There are still missing pieces of information or claims. He was able to show and claim “Hydrogen fracturing process to disassociate water molecules by way of voltage simulation, ionization of combustible gases by electron ejection and then preventing the water formation during thermal ignition releasing a thermal explosive energy beyond ‘normal gas burns’ levels under control state… and such an atomic energy process is environmentally safe”.   He did not use ‘Heavy water’ called ‘Deuterium’ but normal water and controlled state and shown that the covalent bond of water can be broken using an electronic circuit using water as dielectric medium of a capacitor.  It uses a high voltage but a low current and the process is instantaneous.  It differs from the ‘Faraday’s law of electrolysis’ in a conventional sense. The scientific community seems to be a little more understanding with an open mind in recent times to such ‘free energy’ concepts and devices than in the past.  ‘Resonance electrolysis’ has been reported by few institutions and people as an alternative to ‘conventional water electrolysis’ to cut energy consumption. Decomposition of water into its molecules requires high temperature above 3000°C using a process known as ‘pyrolyis’ and a technique to separate the decomposed molecules from reunion for water formation.  Prof. Mizuna of Hokkaido University of Japan and his coworkers demonstrated ‘Plasma Electrolysis’ by an experiment which showed an evolution of anomalous amount of Hydrogen and oxygen sometimes as much as 80 times more than normal Faraday’s electrolysis of gas generation. Though such reaction requires a very high temperature they could not successfully measure the reaction temperatures during the experiments. They used a Platinum anode and Tungsten cathode and a provision to separate Hydrogen and oxygen gases. They concluded at the end of the experiment that the input voltage and the current efficiency were critical parameters.  On increasing the Voltage to several thousands, they said the current efficiency can exceed unity.  The anomalous release of gases indicates that the electrolysis is not a normal electrolysis but beyond that. (Ref:Mizuno, T., T. Akimoto, and T. Ohmori. Confirmation of anomalous hydrogen generation by plasma electrolysis. in 4th Meeting of Japan CF Research Society. 2003. Iwate, Japan: Iwate University) In all these experiments the gases coming out of the system are not at high temperature but at normal room temperature.  The chemistry of water molecule decomposition and plasma pyrolysis is not fully understood.  After all ‘Cold fusion’ seems to be plausible under certain conditions and it may be a panacea for the world’s energy problems.  When our energy requirement exceeds a limit due to a population explosion and industrialization then finding a solution becomes a daunting task. Mohandas Gandhi said: “There is enough for everybody’s need but not for everybody’s greed. Be the change what you wish to see in the world”.

Why should you choose Photovoltaic Hydrogen over Photovoltaic battery?

 Photovoltaic (PV) power is becoming popular worldwide as an alternative to grid power for various reasons. It gives an energy independence and freedom, it helps reduce greenhouse gas emission and combat global warming, it helps people taking advantage of various Government subsidies and incentives, and it also generates some revenue by selling surplus power back to the grid. At the end of the period you own the system and claim depreciation and some tax benefits. All these compelling factors may motivate people to opt for PV solar power. But you should also do some math and make a cost benefit analysis to choose a right system for you.

When there is a good sunshine day after day and throughout the year, PV solar is good proposition and can be really rewarding. Unfortunately that is not the reality. There may be many cloudy, rainy and fogging days in a year and your PV solar capacity may be overestimated or underestimated. You know the real data only after one or two years of life experience. It is a long-term financial and ethical decision one has to make and the decision should be absolutely right. You can make such a decision by carefully examining all the factors, not just by looking at the first cost but looking at operating and maintenance costs and all the costs and benefits associated with them.

Storage batteries are inevitable in PV solar systems, especially for grid independent systems. Even with grid connected PV solar system the design and installation of a correct battery bank, controllers and rectifier are important issues. In this article we will discuss about grid independent system because many developing countries in Africa and Asia do not have 24×7 uninterrupted grid power supplies. Many people living in islands have to manage their own power by using diesel generators. This is the stark reality.

Let us assume that you design a system assuming a daily average power consumption of 25,000 kwhrs/day, which is suitable even for a medium size family in US. We made an optimum design study between two  systems; first  containing PV solar,battery,controller for grid independent power supply; and second  system with PV solar, battery, water Electrolyzer,Hydrogen storage  and PEM Fuel cell and a rectifier for grid independent system,  based on the same power consumption of 25,000kwhrs/day. You can clearly see the difference between the two systems by the following data.This financial analysis was made assuming there is no Government subsidies and incentives.

Grid independent system with battery storage for 25,000kwhrs/day power:

Total NPV (net present value):$ 342,926

Levelized cost of energy: $2.94/kwhrs

Operating cost/yr: $22,764

Grid independent system with Hydrogen storage for 25,000kwhrs/day power:

Total NPV (net present value): $ 169,325

Levelized cost of energy : $ 1.452/kwhrs

Operating cost/yr: 8,330

The number of batteries required in the first case is 17 numbers. In the second case, number of batteries required is only 2.Obviously,  the levelized cost of power using  PV Hydrogen (storage) is less than 50% of the power generated using PV battery (storage) for the same energy consumption of 25,000kwhrs/day. The operating cost is only one-third for PV Hydrogen system compared to battery system. Batteries are indispensable in any renewable energy system but reducing their  numbers to the lowest level is important, when the life of the system varies from 25 years to 40 years. The numbers and the cost of batteries and their maintenance cost  will make all the difference.

 

Sustainable Hydrogen from bio-waste

It is clear substituting fossil fuels with Hydrogen is not only efficient but also sustainable in the long run. While efforts are on to produce Hydrogen at a cost in par with Gasoline or less using various methods, sustainability is equally important. We have necessary technology to convert piped natural gas to Hydrogen to generate electricity on site to power our homes and fuel our cars using Fuelcell.But this will not be a sustainable solution because we can no longer depend on piped natural gas because its availability is limited; and it is also a potent greenhouse gas. The biogas or land fill gas has the same composition as that of a natural gas except the Methane content is lower than piped natural gas. The natural gas is produced by Nature and comes out along with number of impurities such as Carbon dioxide, moisture and Hydrogen sulfide etc.The impure natural gas is cleaned and purified to increase the Methane content up to 90%, before it is compressed and supplied to the customers. The gas is further purified so that it can be liquefied into LNF (liquefied natural gas) to be transported to long distances or exported to overseas.

When the natural gas is liquefied, the volume of gas is reduced about 600 times to its original volume, so that the energy density is increased substantially, to cut the cost of transportation. The LNG can be readily vaporized and used at any remote location, where there is no natural gas pipelines are in existence or in operation. Similarly Hydrogen too can be liquefied into liquid Hydrogen. Our current focus is to cut the cost of Hydrogen to the level of Gasoline or even less. Biogas and bio-organic materials are potential sources of Hydrogen and also they are sustianable.Our current production of wastes from industries business and domestic have increased substantially creating sustainability isues.These wastes are also major sources of greenhouse gases and also sources of many airborne diseses.They also cause depletion of valuable resources without a credible recycling mechanisms. For example, number of valuable materials including Gold, silver, platinum, Lead, Cadmium, Mercury and Lithium are thrown into municipal solid waste (MSW) and sewage. Major domestic wastes include food, paper, plastics and wood materials. Industrial wastes include many toxic chemicals including Mercury, Arsenic, tanning chemicals, photographic chemicals, toxic solvents and gases. The domestic and industrial effluents contain valuable materials such as potassium, Phosphorous and Nitrates. We get these valuable resources from Nature, convert them into useful products and then throw them away as a waste. These valuable materials remain as elements without any change irrespective of type of usages.Recyling waste materials and treatment of waste water and effluent is a very big business. Waste to wealth is a hot topic.

The waste materials both organic and inorganic are too valuable to be wasted for two simple reasons. First of all it pollutes our land, water and air; secondly we need fresh resources and these resources are limited while our needs are expanding exponentially. It is not an option but an absolute necessity to recycle them to support sustainability. For example, most of the countries do not have Phosphorous, a vital ingredient for plant growth and food production. Bulk of the Phosphorus and Nitrates are not recovered from municipal waste water and sewage plants. We simply discharge them into sea at far away distance while the public is in dark and EPA shows a blind eye to such activities. Toxic Methane gases are leaking from many land fill sites and some of these sites were even sold to gullible customers as potential housing sites. Many new residents in these locations find later that their houses have been built on abandoned landfill sites. They knew only when the tap water becomes highly inflammable when lighting with a match stick. The levels of Methane were above the threshold limit and these houses were not fit for living. We have to treat wastes because we can recover valuable nutrients and also generate energy without using fresh fossil fuels. It is a win situation for everybody involved in the business of ‘waste to wealth’.

These wastes have a potential to guarantee cheap and sustainable Hydrogen for the future. Biogas is a known technology that is generated from various municipal solid wastes and effluents. But current methods of biogas generation are not efficient and further cleaning and purifications are necessary. The low-grade methane 40-55% is not suitable for many industrial applications except for domestic heating. The biogas generated by anaerobic digestion has to be scrubbed free of Carbon dioxide and Hydrogen sulfide to get more than 90% Methane gas so that it can be used for power generation and even for steam reforming to Hydrogen generation. Fuel cell used for on site power generation and Fuel cell cars need high purity Hydrogen. Such Hydrogen is not possible without cleaning and purifying ‘ biogas’ much. Hydrogen generation from Biogas or from Bioethanol is a potential source of Hydrogen in the future.

How to generate your own Hydrogen?

It is amazing that highly combustible Hydrogen is a constituent of cool water. As long as it remains a part of a water molecule we are able to handle it easily. Water is always in a state of ionization with H+ and OH- ions in a dynamic equilibrium. The electrical conductivity of pure water which is completely free from any other ions is almost zero. In a solid polymer electrolyzer, which is the reverse of Fuel cell, water is decomposed into Hydrogen and Oxygen while passing a Direct current. Electrolyzer is an electrolytic cell similar to battery, containing an Anode, Cathode and Electrolyte. In a solid polymer Electrolyzer, the electrolyte is a polymer membrane. Water is decomposed as shown in the following reaction:

At Anode of electrolyzer:               H2O——– 0.5 O2 + 2e + 2H†

At Cathode of electrolyzer:             2H† + 2e —— H2

The purity of water is critical in the above process of electrolysis. In conventional electrolysis, water with addition of potash lye (KOH) acts as an electrolyte. But in the above process there is no need for any addition of lye. Moreover, Hydrogen can be generated at high pressure so that further compression becomes easier. In cases of power generation using Fuel cell, the Hydrogen pressure from Electrolyzer is sufficiently high, obviating the usage of an additional compressor.

The electrical conductivity of water increases as the concentration of dissolved salts increases. That is why the electrical conductivity of seawater is much higher than your tapwater.But this salt can be removed by the process of desalination using ‘reverse osmosis’ systems.

When you separate pure water and salt water using a semi permeable membrane there is natural tendency for pure water to pass across the membrane to pure water side. This process is called ‘Osmosis’. The process continues till the concentration of water on both side of the membrane becomes equal. Nature does not like disparities between strong and weak and always tend to make both equal. By reversing this principle of osmosis, we can separate salt water into pure water and highly concentrated salt water known as brine. This process is called ‘Reverse osmosis’. We will discuss about this process later.

If your tap water is not very hard, say such as, total dissolved solids TDS is around  500ppm (Part per million), then the osmotic pressure is not high, which means you do not need to use a high pressure pump. Higher the TDS level, higher the osmotic pressure and higher the power consumption will be. You can install a reverse osmosis system based on your water analysis. You have to use a pure water with low conductivity 10-15 micro Siemens/cm.The reverse osmosis system can be connected to your tap and  store pure water while draining the salt water into the drain. You can use this pure water to an Electrolyzer to generate Hydrogen. The Hydrogen can be stored in a tank made up of Carbon composite materials that can withstand high pressure and approved by regulatory authorities.

This article is only to understand how Hydrogen can be generated using your tap water. The actual implementation of the system requires knowledge and experience in installing such a system. But we will release an eBook, a step by step guide to set up your power generation system as well fuelling your Fuel cell car, using Hydrogen. An independent power generation and fuelling system using only solar power and water will soon become a commercial reality because, it is a clean and sustainable solution for all our energy problems. The PV solar industries are already expanding at a faster rate and solar Hydrogen will soon become a final solution.

How to power your home and fuel your car with Hydrogen?

There is a general opinion that Hydrogen is dangerous or explosive; people are often reminded of Hindenburg accident or Hydrogen bombs. Hydrogen is as safe as Gasoline or Butane gas. It should be handled with care like any combustible material. We have used Hydrogen in industries for so many decades and transported by pipelines across thousands of kilometers; the methods and procedures of handling Hydrogen is well established. It is a very light, colorless and odorless gas and it can easily escape into the atmosphere. Hydrogenation of vegetable oils for production of certain Margarines is one the classical industrial examples for Hydrogen usage. When 100m3 Hydrogen is compressed to 10,000psi pressure, it is reduced to just 0.163 m3 by vlume.That is how the Hydrogen storage space is reduced in passenger cars. This volume of gas can give a mileage of 652 miles, using Fuel cell power. The only emission is just pure water vapor! No noise, no smoke and it is entirely a new experience driving a Hydrogen Fuel cell car.

Powering your home with Hydrogen or fuelling your Fuel cell car is not very difficult. It is expensive compared to grid power for two simple reasons. Grid power is generated by power generation companies somewhere else using coal, oil or gas and transmitted across to millions of people.Therefore,  the  investment on power generation is shared by millions of people through their monthly energy bills. When you use the grid power, you do not pay any large sum except, a small deposit of few hundred dollars towards connection fee, and you pay your bills based on your monthly electricity usage.

But when you try to generate your own power using a solar panel or Fuel cell then you have to make an investment fully upfront. Of course, your bank can help you with the finance for the system. However, when you calculate the energy cost over the life period of 25 years then you can clearly see the value of such investment. The grid power cost will only increase and never decrease while your generation cost will decrease as the time passes. The future energy cost is likely to increase substantially due to various factors. You can export surplus power to the grid and your payback time will be reduced as the energy cost increases.

The first step in powering your home is to calculate your power requirements accurately in terms of watt.hrs.How many appliances you will be using  and how many hours you will using each of these appliances per day. Suppose you estimate 15,000 watt.hrs/day or 15kwhrs/day of power, and then a small Fuel cell consuming 1 Kg/day of Hydrogen or 30 kgs/month of Hydrogen will be sufficient to meet your power demand. Similarly you can calculate the amount of Hydrogen you will be using as a fuel for your Fuel cell car. For example, if you will be  driving your Fuel cell car for 1000 miles per month, then  your Hydrogen requirement will be about 14 kgs/month. Your Hydrogen requirement per month for both power and car together will be 44 kgs only.

Your total  power need to generate the above Hydrogen will be 2464 kwhrs/month costing less than $250 per month for both power and fuel. Of course you need to calculate other fixed costs on the investment. You can export your solar power at a higher tariff to the Government and import your power requirement from the grid during off-peak season at a lower tariff and generate Hydrogen and store it. You can generate your power as and when you need, and you are in complete control of your situation, even if there is a blackout due to grid failure!

Hydrogen assisted combustion

We have been using fossil fuels like diesel, petrol and natural gas for power generation and transportation from the time of industrial revolution. The basic fuel and the combustion technology are practically the same with efficiencies less than 40%. In fact we have become very complacent with both the fuel and the combustion technology and there were no major research and development on both the above issues. In fact we became completely dependent on these two issues and there was no real breakthrough either in substituting the fossil fuel or in the combustion technology. The basic reason behind this situation can be attributed to the discovery of electromagnetism, which opened the way for electricity generation as well as transportation. In both these industries, the key part is the motor which provided a rotary motion. This rotary motion generates electricity in turbines and such motion is created by combustion of a fuel, which is invariably a fossil fuel. We have carried on this for few decades before the emission of greenhouse started rising abnormally and became an issue.

We are now at cross roads wondering what the future holds for the world. Is it possible to carry on the business as usual or look for an alternative source of energy? We started looking at various sources of energy as an alternative. Any alternative energy source should meet two critical parameters namely the lower or no carbon emission and sustainability. Low carbon can be achieved by few methods. The immediate option is to maximize the energy efficiency of existing systems so that for the given input of fuel the output is much higher than what we have achieved all these years. But this increase in efficiency should be real to achieve the emission levels of greenhouse suggested by the UN panel on climate change.

The second option will be to switch over to different fuels with less carbon emission e.g., coal-fired power plants switching over to gas-fired power plants using combined cycle. Retrofitting organic Rankin cycle as a bottoming for steam turbines to squeeze out some extra energy. Decentralizing the power plants in a phased manner in favor of distributed energy systems where gas, instead of electricity, can be supplied to each industry, to generate their own power using CHP process. All these measures can help reduce the emission level but our dependency on fossil fuel will still continue.

W can look at a completely different fuel source and new technology for power generation and transportation. If we look at carefully there are not many alternative fuel sources except Hydrogen that could meet these limits. We are also trying to develop bio fuels. But biofuels are also organic chemicals with carbon backbone which will generate greenhouse emission. Moreover bio fuel sources such as palm oil, corn are also food sources. There is an indiscriminate deforestation and plantation of palm trees in tropical countries like Malaysia, Indonesia and PNG. The focus is now shifting to carbon based organic compounds like biofuel and biogas. This will create a situation where food crops will be substituted with energy crops creating food shortage.But the carbon dioxide level in the atmosphere may not be reduced drastically by these methods.

We need to develop an energy source which does not emit any carbon emission and at the same time we should be able to use existing technology to the possible extent. Only Hydrogen can meet these requirements. In the current situation it is impossible to substitute fossil fuels in a short span of time. We can cut fossil fuels by blending with Hydrogen to the most extent possible so that we can meet two goals. We can cut the carbon emission and at the same time we can deploy Hydrogen as a blended fuel with fossil fuel and not, pure Hydrogen. Since Hydrogen is a very light gas and readily forms an explosive mixture with oxygen, this opens up a new opportunity to develop Hydrogen assisted combustion process in power generation as well as in transportation. It will be easier to handle a mixture of natural gas and Hydrogen for combustion in Gas turbine, or spark ignited reciprocating engines, as well as, gasoline combustion engines in cars. This will also gives us an opportunity to develop advanced and competitive systems like Fuel cell as an alternative technology for combustion process in due course of time.

The hydrogen assisted combustion technology is much easier, faster and economical and at the same time cut the greenhouse emission to an accepted level. But the source of such Hydrogen cannot be natural gas but only renewable sources. The renewable technologies such as solar, wind, geothermal, OTEC (ocean thermal energy conversion) should generate renewable Hydrogen. This is the key for sustainability as well as for greenhouse gas mitigation. These two benefits are too attractive to ignore and it is time we move from total fossil fuel to Hydrogen blended fossil fuel. The blended fuel along with the energy efficiency measures suggested above should go hand in hand, so that we may get over this turbulent period of financial crisis and global warming.

It is also possible that Hydrogen assisted combustion be adopted for coal-fired power plants by simply firing coal slurry, finely powdered coal blended with water and conveyed pneumatically for firing boilers and also for gasification process to generate syngas for IGCC (Integrated gasification and combined cycle) applications. Syngas production will be critical in the near future for a smoother transition from fossil economy to Hydrogen economy irrespective of the route we adopt.

Hydrogen-the key to sustainability

Renewable energy is one of the fastest growing energy sources of our times. But still there are many obstacles to overcome, before it can substitute current methods of electricity generation using fossil fuels, or substitute petrol in cars. The main obstacle is, the intermittent and unpredictable nature of renewable energy sources, such as wind and solar. Wind blows only certain seasons of the year and then wind velocity fluctuates widely in a day. Similarly sun shines only certain hours in a day and the intensity of radiation varies widely in a day. The wind velocity and sun’s radiation intensity are critical components in designing a reliable energy system. It is an anomalous situation, when we need power, there is no sun or wind; when sun shines or wind blows, we may not need any power. How to overcome this anomaly? That is the key, in successfully deploying renewable energy technologies.

Currently we are using batteries to store the energy. When there is a wind with reasonable velocity or sunshine with reasonable radiation intensity, we can generate power and store them in batteries. The wind velocity should be above certain threshold limit, say such as, a least wind velocity of 3mts/sec for amount of hours, while designing a wind based energy system. The same principle applies to solar energy and we need certain minimum solar   intensity and several hours. But in reality, we don’t get these minimum operating parameters, which make the design of a renewable system more complicated.

Batteries can accumulate these small energy generations by intermittent sources of wind and sun, and store them. But these batteries have certain life between 3-5 years and requires regular maintenance, replacements.They also have certain charging and discharging cycles and limitations. At the end of its life, it has to be disposed carefully because these batteries are made of lead and acid, which are toxic materials. Many companies are trying to introduce better technologies such as ‘flow batteries’. But experience shows that such batteries are confined to only smaller capacities. Large scale storage is expensive and sometimes it is not economically feasible. Lithium-ion batteries are more efficient than Lead-acid batteries, but they are more expensive so the renewable energy projects become expensive and cannot compete with conventional fossil fuels, in spite of higher tariffs offered by Government as incentives. Moreover the demand for Lithium-ion batteries will increase substantially in the future, as more and more Electric cars are produced. But lithium sources are limited and it is not sustainable.

The best option to develop renewable energy systems is to generate Hydrogen using renewable energy and store them, instead of storing them in batteries. We can use stored Hydrogen to generate power, or use as fuel for the car, as and when we need. There are no maintenance or disposal problems with Hydrogen storage, when comparing with batteries. Hydrogen generators (electrolyzers) can generate Hydrogen when the intermittent power flows from wind or sun. They can run from a range of capacities from 5 to 100% of rated capacity and they are more suitable for renewable energy sources. But there will be a loss of energy, because the amount of power required to generate Hydrogen, is more than the power generated from the resulting Hydrogen by a Fuelcell.The initial cost will be higher, but it will give operational flexibility with least maintenance, and even adoptable to remote sites. Technology is improving to cut the cost of fuel cells and electrolyzers so that Hydrogen based renewable energy will become a sustainable source of energy in the future. Hydrogen is the only solution that can solve both power generation and transportation problems the world is currently facing.

Can Electric cars eliminate greenhouse gas emission?

There is a myth that electric cars will eliminate Greenhouse gas emission and reduce the global warming. Electric car will not reduce the greenhouse emission because; you still need electricity to charge your batteries. Companies promoting electric cars are now planning to set up their own battery charging stations because, customers have to charge batteries of these electric cars every now and then. Otherwise, they will not be able to drive their electric cars continuously.  There is no battery currently in the market that can last more than 28 hours between the charges, though many companies are trying to develop superior batteries. One company claims a Battery(electricity) of 300whr/kg, for their LLithium-ion polymer battery, much superior than other batteries, which can run 600kms, with 6 minutes charging. Though, new batteries such as semi solid Lithium-ion battery, based on the principle of ‘flow batteries’, are promising, it is still, a long way to commercialization. President Obama  has set a set a target of 1 million electric cars in US roads, by 2012.It is estimated that US has to produce about 40 billion dollars worth of domestically produced batteries. A lithium-ion battery which weighs less and stores more energy is the promising technology. But Lithium resources are limited. Battery is the heart of an electric car. These electric cars do not emit smoke, or make noise like petrol cars. But, these two factors alone are not sufficient to substitute traditional fossil fuel powered international combustion engines.

It is also true, that electric cars can cut green house emission to an extent, where fossil fuel consumed cars are replaced with electric cars. To that extend, the fossil fuel consumption by these cars are reduced. But the power to charge the batteries will still have to come from the common grid. Unless the power generation technology using fossil fuels is changed, there will be no dramatic greenhouse gas emission reduction by introducing electric cars. Alternatively, if cars are built on Hydrogen based fuel either using a conventional Internal combustion engine, or by using Fuel cell, then a substantial amount of greenhouse emission can be eliminated. However Hydrogen generation should be based on Renewable energy source only. Whichever way one looks at it, renewable energy is the key. Those Governments and companies who do not invest in renewable energy technologies and systems, now, will have to pay a heavy price, in the future. But even those companies investing on renewable energy technologies, should look beyond current technologies and systems. The best starting point for these industries will be to substitute ‘storage batteries’ with ‘stored Hydrogen’.

It is much simpler to install PV solar panels or wind turbines, and to generate Hydrogen on site, from water. One can store Hydrogen in fuelling stations, and fuel the cars. Honda was the first entrant into this market, who was focusing on fuel cell technology, using compressed hydrogen gas. Alternatively such Hydrogen can be generated from ‘Biogas’ generated from biological wastes and waste treatment plants. All necessary technologies are currently available to make it happen. Governments can try to promote small townships with Hydrogen fuel stations, and show case such models to the rest of the country or other nations to follow. This will help nations to reduce their greenhouse emission and at the same time, they can become self-sufficient in their energy requirements. They no longer have to depend on polluting oil and gas, from few Middle East countries. Countries like India with impressive economic growth heavily depend on oil imports and any slight fluctuation in oil prices can easily upset such growth. It is time Governments around the world take a serious look at Hydrogen, as their alternative energy source. It is just not good enough to promote renewable energy technologies, but they have to develop generation, storage and distribution technologies for Hydrogen. What is needed at this hour is, ‘will, determination and leadership’ on the part of the Governments, like US, China and India, that can set an example for the rest of the world by investing in Hydrogen economy.

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