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Renewable Energy-Based Desalination could Resolve India’s Perennial Water Woes

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The ever-increasing demand for potable water is exerting tremendous stress on our existing consumable water resources. Water covers a little over 70 per cent of the earths surface, and by this we erroneously presume that there is adequate potable water. Realistically, only 3 per cent of this water is potable.

According to a study in Science Advances, some African and Asian countries face severe water scarcity for almost the entire year. The same study also reveals that India suffers from water scarcity for over seven months a year. The current water requirement for India is around 28,251.73 TMC (thousand million cubic feet), which is close to the utilisable water resource (i.e. available fresh water) for our country (roughly 38,351.73 TMC). Studies by the Ministry of Water Resources indicate that the available water will become equal to the demand by the year 2030, if the current trends continue. However, because many fresh water sources are highly polluted, the actual utilisable water is likely to be much lower than 38,351.73 TMC. Therefore, there is an urgent need to find solutions to alleviate water scarcity in India.

Desalination processes based on renewable energy (RE) could be a solution to India’s perennial water woes. Desalination is the process of distilling sea or polluted water (called source water) using thermal (heat) or electrical energy. This process removes salts (chlorides, fluorides, sulphates, etc.) which are dissolved in water, thereby rendering the source water consumable (called distillate). However, these processes have a major drawback — they consume a large amount of energy, most of which is derived from fossil fuels. Considering the fact that India and the rest of the world are moving towards fossil-free energy generation, it would be prudent to combine RE with desalination technologies.

Some of the commercialised and extensively used desalination technologies are Multi Stage Flash (MSF), Multi Effect Distillation (MED) and Reverse Osmosis (RO). Adsorption-based desalination shows great economic promise, but the technology is yet to mature. MED and MSF operate by heating the source water till it evaporates, and then collecting the distilled water. RO is a membrane-based desalination technology, where the source water flows across a membrane (similar to a filter paper) with the help of a pump. Salts are filtered out as the water is forced across the membrane, thus ensuring that only desalted or distilled water passes through.

There are many probable RE candidates, such as Parabolic Trough Collector (PTC), Compound Parabolic Collector (CPC) and Solar Photovoltaic (PV), that can be used to power commercial desalination technologies.

PTCs and CPCs use reflectors such as mirrors to capture solar energy and convert it to thermal energy using metallic receivers, which are in the form of circular tubes. PTCs and CPCs can power MED and MSF as these desalination technologies consume thermal energy. PV, on the other hand, converts solar energy directly into electrical energy. Therefore, PV can supply the required electrical energy to power RO systems.

The combination of RE-desalination technologies depends on various factors, such as location, source water availability and quality, distillation capacity, cost of desalination and environmental constraints. However, it is finally the cost and the capacity that determine the technology combination.

Combining RE-based technologies with the desalination process ensures that the production of pure water is non-polluting. This has two benefits: One, in the short-term, clean drinking water is produced, which could alleviate water scarcity problems; and two, in the long-term, the use of RE-based technologies will aid in reducing the effects of climate change.

As an immediate solution, we recommend solar thermal/PTC with MED system as the best combination based on the following rationale: That it can operate for 24 hours and, hence, cater to large water requirements; that it can handle a wide range of water quality, and finally, it allows water production at a low cost. This combination looks good for immediate implementation until other emerging technologies (such as adsorption technology) are mature enough for commercialization.

(Suhas Bannur is a Research Engineer at the Center for Study of Science, Technology and Policy [CSTEP]. The views expressed are those of CSTEP. He can be contacted at suhasbannur@cstep.in)

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750 MW Solar Park to come up soon

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Amaravati: Energy firms Sprng Energy, Ayana and SoftBank Energy will set up a 750 MW Solar Power Park at NP Kunta in Anantapur district soon. It has been targeted to complete works within 8 to 10 months and start power production from the NP Kunta Solar Power Park.

The State government has already identified land and some extent of land has already been handed over to the National Thermal Power Corporation (NTPC) for the proposed solar park.

AP Solar Power Corporation Ltd Managing Director G Adisheshu told The Hans India that as the APDISCOMs entered into an agreement with the NTPC a few days ago, works of solar power park would begin soon. The NTPC has issued LoA to the Sprng Energy, Ayana and SoftBank Energy to begin the works at NP Kunta, officials said.

The public sector giant NTPC has proposed solar park with a capacity of 1000 MW at NP Kunta in Anantapur district. It established 250 MW of solar park under phase- 1 and the remaining (750 MW) has been in pending as the State government rejected tariff rate (Rs 4.60/ unit) proposed by the NTPC.

In the recent auction by the NTPC, Sprng Energy, Ayana and SoftBank Energy have emerged as lowest bidders to set up the 750 MW of solar park in Anantapur.

The Sprng Energy Private Limited quoted a tariff of Rs 2.72 per unit, Ayana Renewables and SoftBank Energy quoted Rs 2.73 per unit each in the auction which concluded in May. Adisheshu said the solar power tariff of Rs 2.72 per unit (without VGF – viability gap funding) could be considered as a reasonable rate in view of apprehensions that the price of solar panels may be increased.

The NTPC has entered into power purchase agreement (PPA) with APDISCOMs recently for procurement of power at a rate of Rs 2.72 per unit. The State government identified 6,907.05 acres in NP Kunta for the solar park and 6,692.97 acres has already been handed over to the NTPC. Common infrastructure works such as approach road and water system works were completed.

The State government has targeted to achieve a total capacity of 4,000 MW of solar power by 2020. “We can reach this target by the end of 2019. Now we have capacity of Rs 1,550 MW of solar power. The works of 400 MW of solar power park at Galiveedu has almost been completed. The Solar Energy Corporation of India is going to issue tenders for another 750 MW of solar power park in the State,” Adisheshu said.

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Kempegowda International Airport to be powered by 100 % renewable energy by 2020

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The energy input of Airport is 11 MW per day which will increase up to 20 MW because of two terminals. Already some patches of airport employ renewable solar energy. KIA generates around 3.44MW from solar energy daily. As per the proposed plan, the solar capacity will be enhanced. The total solar energy input would be about 12 MW and will be added in phases. The entire 12 MW would be generated from on-site energy productions. BAIL plans to outsource another 8MW of solar energy from off-site units to meet energy requirements.

BENGALURU: A grand target has been set by Bangalore International Airport Limited (BIAL) for itself. It has aimed to run Kempegowda International Airport (KIA) completely on solar power by 2020. The power demand of Kempegowda International Airport (KIA) is 11 MW per day right now. Energy requirements are expected to increase after completion of the second terminal of Airport. The energy input of Airport is 11 MW per day which will increase up to 20 MW because of two terminals. Already some patches of airport employ renewable solar energy. KIA generates around 3.44MW from solar energy daily. As per the proposed plan, the solar capacity will be enhanced. The total solar energy input would be about 12 MW and will be added in phases. The entire 12 MW would be generated from on-site energy productions. BAIL plans to outsource another 8MW of solar energy from off-site units to meet energy requirements.

S Lakshminarayanan, vice president (engineering & maintenance), BIAL told TOI “Currently, solar energy is harnessed from both roof-top and ground-mounted panels. Our aim is to make the airport 100% renewable-energy powered by 2020. We also plan to increase our consumption through on-site and off-site solar power purchase agreements.”BAIL plans to install a solar power plant with a capacity of more than 10 MW at KIA. Already around 3.35 MW plant has been installed at the airport as per the proposed plan. Another 5MW plant is right now on the papers, which soon will become reality. The Cochin International Airport Limited authorities in Kerala are also following BAIL. The CIAL has set up a 12 MW solar power project within the premies of the airport to meet energy needs as per the situation to conserve and manage energy. The steps have been taken by BAIL to make sure that they are not only conserving the energy but also generating it. Explaining how conserving energy is a grey area of energy organization, S. Lakshminarayanan said: “At BIAL, energy conservation efforts have been taken up and implemented. These include installation of LED lights, use of solar power, installation, modification and adoption of energy-efficient fittings and fixtures.

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IB Solar introduces state of the art microprocessor

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IB Solar introduces state of the art microprocessor based DC-AC converter that requires no battery and no mains power for functioning. It converts direct solar panel energy to power for running electrical appliances such as fans, lights, water pumps, washing machines and many more.

 

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