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Solar Farming Potential in India

3p Contributor | Monday August 1st, 2011 | 5 Comments

250 MW concentrated solar project in Nevada- Would this work in India?

By Darshan Goswami, M.S., P.E.

The newest crop in India could be electricity from the sun. “Solar Farming” can help change India’s energy economy to clean and efficient renewable energy during the day when it is needed the most, create millions of jobs, and could help India achieve energy independence and better national security.

Imagine a crop that can be harvested daily on the most barren desert and arid land, with no fertilizer or tillage, and that produces no harmful emissions. Imagine an energy source so bountiful that it can provide many times more energy than we could ever expect to need or use. An hour’s worth of sunlight bathing the planet holds far more energy than humans worldwide consume in a year. You don’t have to imagine it — it’s real and it’s here. Solar energy is an abundant enormous resource that is readily available to all countries throughout the world, and all the space above the earth. It is clean, no waste comes from it, and it’s “free.”

This “free” source of electricity can be used to supply the energy needs of homes, farms and businesses. Through the use of Photovoltaic (PV), Concentrated Photovoltaic (CPV) or Concentrated Solar Power (CSP), sunlight is converted into electricity that can provide power to businesses, homes, and drive motors.

I firmly believe that, to meet all its energy needs, India should diversify its energy mix by accelerating the use of all forms of Renewable Energy technologies (including PV, thermal solar, wind power, biomass, biogas, and hydro), and more proactively promote energy efficiency. However, in this article, I will only focus on the “Solar Farming Potential in India.” My previous article explores “How Concentrated Solar Power (CSP) Technology Can Meet India’s Future Power Needs

Arizona solar farm

What is a Solar Farming?

On a solar farm, large amounts of power are generated from sunlight. Since solar energy is collected from a wide area, it is important to view the process as “farming” to “harvest” renewable energy from the sun. Solar farming is an opportunity for those in the agricultural sector to view solar energy as a “replacement harvest” and create cleaner forms of energy by transforming vacant or even underused land into farms that produce electrical energy. Imagine making 12 to 15% or more assured return on investment for 30 years without any up-front money. Having a solar energy system would allow you to produce your own electricity. Additionally you could sell some of your electricity to your neighbors, local businesses, or even the local utility company.

SolFocus – A CPV installation at the Nichols Farm pistachio processing facility in Hanford, California

Solar energy farms, especially larger ones, can be interconnected into the electricity grid and produce significant levels of electricity offsetting traditional sources of generation. Moreover, large-scale solar-power generation has the potential to help meet India’s enormous energy needs.

Solar energy provides a new kind of experience to farmers in growing their crops. New commercial solar technologies enable farmers to capture solar energy to produce electricity, heat and hot water to enrich their farms, and energy independence to farmers.

How to Implement Solar Farming

Some governments are providing huge grants or subsidies to fund community solar farm projects as part of their energy programs. Solar farming can help advance India’s use of renewable energy and help assure achievement of economic development goals. To successfully implement Solar Farming requires feed-in tariffs. This allows farmers to invest with the security of 20 to 25 year Government Grants. The energy from these farms is purchased directly by utilities, who often sign 10 to 20 year energy purchase contracts with solar farm owners thereby securing low-cost energy for the end user.

Solar farms will also play a vital role in reducing greenhouse gas emissions that contribute to global warming. Solar farming is truly environmentally friendly. By installing solar farm equipment, you’ll also considerably boost the value of your property – it’s a great selling point should you decide to sell your farm.

The Future of Solar Farming in Modern India

India is blessed with a vast Solar Energy potential. About 5,000 trillion kWh of solar energy is incident over India every year. Each day most parts of the country receive 4-7 kWh per square meter of land area5. India’s deserts and farm land are the sunniest in the world, and thus suitable for large-scale power production. The Indian Government should embrace favorable tax structures and consider providing financial resources to fund projects to put up community solar farms as part of their energy development programs. India can become the Saudi Arabia of clean Solar Energy.

Solar electricity could also shift about 90 percent of daily trip mileage from gasoline to electricity by encouraging increased use of plug-in hybrid cars. For drivers in India this means that the cost per mile could be reduced by one-fourth (in today’s prices).

A decline in solar panel prices over the last two years also has contributed to exponential increases in solar deployment worldwide and lower project costs. A new technology that also holds promise is Concentrated Photovoltaic (CPV). First brought to commercial operation in 2008, CPV uses a concentrating optical system that focuses a large area of sunlight onto the individual photovoltaic cells. This feature makes CPV panels two to three times more efficient (approximately 40%) at converting sunlight to electricity as compared to silicon-based PV (15% to 20%) and thin films (9% to 13%).

SolFocus – Efficiency Comparison of Solar Technologies

Major cost reductions will be realized through mass manufacturing. The steep increase in system efficiency, combined with decreases in manufacturing costs could levelize the cost of energy for CPV at around $0.10/kWh by 2015. Various incentives by Central and State governments, including tax credits and feed-in tariffs, can further reduce the cost. Cost reductions are so dramatic that Bloomberg recently reported solar energy could soon rival coal. The cost has become so competitive during peak times in Japan and California that the U.S. Department of Energy’s SunShot goal of $1 per watt for large projects by 2017 may happen a lot sooner.

In my opinion, all new energy production in India could be from renewable sources by 2030 and all existing generation could be converted to renewable energy by 2050, if deployment is backed by the right enabling public policies.

Farming Solar Energy in Space

Harvesting solar power from space through orbiting solar farms sounds extremely interesting. The concept of solar panels beaming down energy from space has long been thought as too costly and difficult. Japanese researchers at the Institute for Laser Technology in Osaka have produced up to 180 watts of laser power from sunlight. Scientists in Hokkaido have completed tests of a power transmission system designed to send energy in microwave form to Earth.

Japan has already started working towards its goal by developing a technology for a 1-gigawatt solar farm, which would include four square kilometers of solar panels stationed 36,000 kilometers above the earth’s surface. The energy that will be produced by the solar farm would be enough to supply power to nearly 400,000 average Japanese homes.

California’s next source of renewable power could be an orbiting set of solar panels, high above the equator that would beam electricity back to earth via a receiving station in Fresno County. Sometime before 2016, Solaren Corp. plans to launch the world’s first orbiting solar farm to provide a steady flow of electricity day and night. Receivers on the ground would take the energy – transmitted through a beam of electromagnetic waves – and feed it into California’s power grid. Pacific Gas and Electric Co. have agreed to buy power from a startup company to solve the growing demand for clean energy.

Conclusion

Solar energy represents a bright spot on India’s economic front. If India makes a massive switch from coal, oil, natural gas and nuclear power plants to solar and other renewable sources, it is possible that 100% of India’s electricity could be from renewable energy by 2050. Solar energy would require the creation of a vast region of photovoltaic cells in the Southwest and other parts of the country that could operate at night as well as during the day. Excess daytime energy can be stored in various forms such as molten or liquid salt (a mixture of sodium nitrate and potassium nitrate), compressed air, pumped hydro, hydrogen, battery storage, etc., which would be used as an energy source during nighttime hours.

Solar Energy will be competitive with coal as improved and efficient solar cells, concentrated photovoltaic (CPV) and concentrated solar power (CSP) enter the market. I predict that solar farming advancements and growth would empower India’s rural economies and companies will move their operations from urban areas to rural areas due to cheaper land and labor within the solar belt.

Solar Farming is a renewable source of energy and the greenest form of commercial energy. Solar Energy has become the leading alternative to the costly and eco disasters associated with fossil fuels. I urge the Government of India to accelerate the country’s solar energy expansion plans and policies by implementing government subsidies for residential solar power through renewable energy rebates and feed-in tariffs. Solar Farming is a great concept for an efficient use of barren land and to develop large utility scale solar energy farms to meet India’s economic development goals.

For example, Google is investing $168 Million in the biggest Solar Farm ever. When completed in 2013, the Mojave Desert-based Ivanpah Solar Electric Generating System will send approximately 2,600 megawatts of power to the grid, doubling the amount of solar thermal power produced in the U.S and generating enough electricity to power 140,000 California homes when operating at full capacity.

I personally think there are no technological or economic barriers to supplying almost 100% of India’s energy demand through the use of clean renewable energy from solar, wind, hydro and biogas by 2050. India needs a radical transformation of energy system to the efficient use of renewable energies, especially solar power.

Solar Energy is a game-changing program for India. India must accelerate and encourage the domestic development of renewable energy now. It is a question of whether we have the societal and political will to achieve this goal to eliminate our wasteful spending and dependence on foreign sources of energy. The Indian Government should provide favorable government policies to ease the permitting process and to provide start-up capital to promote the growth of solar energy. State and central governments should provide initiatives and other support in order to increase solar power plant capacity. India could potentially increase grid-connected solar power generation capacity to over 200,000 MW by 2030, if adequate resources and incentives are provided. Solar energy is a Win-Win situation for India and the environment, and has the potential to power India’s economy, create millions of new jobs and change the face of India as a Green Nation.

***

Darshan Goswami has over 35 years of experience in the energy field. He is presently working for the United States Department of Energy (DOE) as a Project Manager in Pittsburgh, PA, USA. He retired as Chief of Energy Forecasting and Renewable Energy from the United States Department of Agriculture (USDA) in Washington, DC. Earlier, he worked for 30 years at Duquesne Light Company, an electric utility company in Pittsburgh, PA, USA. He is a registered Professional Electrical Engineer with a passion and commitment to promote, develop and deploy Renewable/Green Energy Resources and the Hydrogen Economy.

The views and opinions expressed in this article are solely those of the writer and are not intended to represent the views or policies of the United States Department of Energy. The article was not prepared as part of the writer’s official duties at the United States Department of Energy.


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  • http://www.undiplomatictimes.com bhaskar menon

    The main problem with the scenario set out by Mr. Goswami is the process. How are we going to do it? If we depend on government nothing will happen. The only way it might work is if social/environmental activists forge an alliance with community-based entrepreneurs.

  • http://nickpalmer.blogspot.com Nick Palmer

    Such a huge conversion to PV technology would mean we hit peak Indium pretty soon…

  • prasanna

    why dont u create a solar panel with high efficiency such as changing panel`s face towards sun for every one hour ,so that the intensity of photons may increase ,so u can produce more energy than the present production !!!pls try to implement it ,so power demand could overcome to an small extend,if any queries regarding my idea pls contact me through my email id : prasan2050@gmail.com

  • Deepak

    well done mr.goswami. good write up.

  • surya

    I totally support and go by Mr.Goswami. But my question is why don’t people like him work towards the develop of India instead US(which is already a well-developed country). He says US has a solar project that could lit up some 140,000 houses in california. How good it will be if he serves as an inspiration and drives the people in India to do the same here? This is the main problem with our country and is my personal opinion and in no offence to Mr.Goswami. I will be happy along with a million other Indians if such a project develops in India. Praying for it.