Air Cdre (R) Azfar A Khan
In these days of escalating oil prices, it’s becoming extremely difficult for a common citizen to pay off monthly electricity bills. The bills keep soaring day by day and there seems to be no respite in foreseeable future. These bills can be reduced by resorting to other methods of generating electricity, solar being one of them.
This article dwells on the discussion regarding production of electricity through solar means and discusses a cost-effective strategy to achieve this end.
The photo above shows Solar Panels being used for water extraction in village Rarkou in Nagarparkar, Sindh
The use of solar energy for the generation of electricity is not something new. Most of the countries are doing it successfully for decades and their population benefiting through the use of this free resource. But, to most of the people, it may still look like a mystery. These days, this energy is being utilized to light our homes, run fans, provide power to our fridges and microwave ovens, assist in warming our homes and swimming pools, provide power to our gardens and street lights, run our TVs and computers, and extract water from the sub-soil for irrigation purposes.
As solar energy continues to power various aspects of our daily lives, the importance of maintaining and repairing your home appliances cannot be overstated. These devices are essential for harnessing the benefits of solar power, ensuring that homes operate efficiently and sustainably. Regular maintenance helps appliances run smoothly, maximizing their performance and lifespan, which is crucial when relying on renewable energy sources. Without proper care, even the most advanced solar-powered systems can underperform, leading to inefficiencies that negate the benefits of using clean energy.
A practical example of the use of solar energy could be seen in some villages of Pakistan where each house has been provided with a solar panel that’s sufficient to run an electric fan and two energy saving bulbs. Prior to this arrangement, the whole village used to be plunged in pitch dark during night. One such example is the village with the name of Narian Khorian, some 50 kilometers away from Islamabad, where 100 solar panels have been installed by a local firm, free of cost, to promote the use of solar energy among the masses. Through these panels, the residents of 100 households are enjoying light and fan facilities. Had these panels not been installed, the people living in this area wouldn’t have even dreamt of getting this facility for decades as the provision of electricity from the national grid was a far cry due to the difficult terrain and high expenses involved.
A layman would normally be interested in knowing as to how electricity could be produced using energy from the sun. Simply put, it can be said that the basic item required to generate this electricity is a solar cell, approximately 2 inches x 1/2 inch in dimension. These cells may be available in other dimensions as well. Some 80 to 100 or even more such cells are pasted on a tampered glass sheet whose dimensions are generally 1.5 feet x 4 feet. The glass sheet with cells pasted on it and inter-connected, is called a solar panel. The light from the sun is used to generate electricity through these cells. It may be clarified that it’s the sun’s light and not its heat that produces electricity. The solar cells are called photovoltaics (PV); the word Photo meaning light and voltaics electricity. The life of a solar panel is approximately 20 to 25 years!
To give you an example of the use of solar energy, you must have noticed solar panels installed on poles along with the telephone booths on your left hand side while commuting on the Motorway. Each of these telephones is being powered by this panel. A battery is installed beneath each solar panel to store energy for keeping the telephone in operation during night when there’s no sun light. It’s a stand-alone system, entirely powered by solar energy. During emergency, the commuters make use of these telephones and call for help.
To give you another example, if you happen to drive from Rawalpindi (Faizabad) towards Murree on the newly constructed Murree Road, you would see on your right hand side blinking red hazard lights installed at the top of each WAPDA pole. Each of these lights is being powered by a stand-alone solar system i.e. a solar panel and a battery. Just imagine, how much expensive and full of hassle it would have been if solar panels weren’t used for this purpose and these lights were provided normal electric connections!
In the photo above, solar panels are visible towards left. These Solar panels are being used for providing electricity to extract water and drip irrigation system. Solar panels are provided by Thardeep Rural Development Programme (TRDP) where as Micro Drip has provided the drip irrigation in a Nagarparkar, Sindh village called Wandhan jo Wandio.
The region of Nevarra, Spain, is generating 70 per cent of its electricity through solar and wind energy. And, mind you, this region doesn’t have any coal, gas or oil of its own. It’s really a classic example of making the best use of renewable energy in any country of the world! But, the question that automatically crops up one’s mind is: “If it can be done in Spain, why can’t it be done in our country?†The answer is a big “Yesâ€.
I will substantiate my statement by presenting you a strategy which, if followed, could be instrumental in generating this electricity in the most cost-effective manner. The cost of the solar systems can be brought down if we go for the manufacture of solar panels in country. Solar panels basically utilize solar cells in their manufacture. . In one panel, approximately, 80 or more solar cells are used, depending upon the power required and the electric gadgets you want to run utilizing these panels. Each solar cell costs approximately Rs. 1000 if imported from abroad. These cells would be required in millions or may be in billions if requirement of the whole country is to be met.
We cannot import such a huge quantity of solar cells from other countries due to financial constraints. So, naturally, there would be no other option but to resort to manufacturing these cells in our own country. Once it has been decided in principle to manufacture solar cells in Pakistan, then we would look for three basic requirements i.e. raw material, trained manpower and necessary infrastructure.
The basic raw material (quartz) is available in abundance in the northern areas of our country. But, this raw material is useless for us as far as its purification and development to a stage where this raw material could be converted into solar cells is concerned. This equipment will have to be imported; but it would be a one-time investment. One would be surprised to know that this raw material is being utilized by the local population of Northern areas for raising the walls of their houses in place of bricks as the poor simpletons don’t know its value. Some of them take it for marble as well!
The other raw material required to manufacture solar cells is silica (sand) which’s in inexhaustible quantity in River Sindh as water these days is otherwise in less quantity in our rivers. At least we should make use of silica in the manufacture of solar cells. So, to venture into manufacturing of solar panels, both the raw materials are available.
The other requirement is that of manpower. I have no qualms in making a statement here that we have the finest and the most hard-working, skilled manpower available in country. From my personal experience, I could say with conviction that the retired personnel of the defence services who have been working on electronics and telecommunication equipment during their service careers would be the best choice for deployment on the manufacture of solar panels and cells. These people are highly skilled and disciplined and get retired at an early age. Shaheen Foundation, Islamabad maintains an up-to-date computerized record of such personnel who are just a telephone call away. The expertise of such workers is not less than any worker deployed in the western countries for such jobs. The only difference is that a European worker of such calibre gets US $ 45 per hour whereas a Pakistani worker, if he is paid $5 per hour (or even less) in his own country would be the happiest man around.
While starting manufacturing of solar cells, it would be advisable if we do it in collaboration with a world-renowned company as India has done. It had a joint venture for the manufacture of wind turbines with a company that has 26000 wind turbines to its credit! This company has a name in wind industry and its wind turbines are being used the world over! This way, we would lay our hands on the best and the latest technology in the field of solar energy and our manpower would also be trained through short orientation courses as they already possess sound knowledge and strong technical base. By adopting this strategy, the cost of the solar cells is bound to reduce drastically with the result that these “prohibitively costly†solar panels would come within the reach of every citizen and the day wouldn’t be far when we’d see these panels mounted on each and every roof in each city of the country including the rural areas. The energy crisis would thus be a history for our citizens.
Presently, there’s one and the only one factory manufacturing solar panels in Pakistan which’s located at Hattar Industrial Area near Taxila, 1-1/2 hours drive from Islamabad. But, due to various compulsions, it’s importing these costly cells from abroad at an exorbitant price.
In a solar system, apart from solar panels (which include solar cells), tampered glass sheets, batteries and inverters (to convert DC electricity into AC) are also used. We have innumerable factories producing good batteries in our country; so there’s no problem in their manufacture! Rather, we can go for maintenance-free batteries! Just augmentation of the manufacturing facilities of the existing factories is required.
Regarding tampered glass, we have many glass manufacturing factories in Pakistan. In this case as well, we’ll have to augment their existing facilities to produce tampered glass of required specifications. Again, I may mention here that it’s a tampered glass sheet on which solar cells are pasted; this glass sheet with solar cells pasted on it is called a solar panel. Tampered glass is after all glass and nothing else. Required machinery could be imported and installed in our existing glass manufacturing factories. There’s no need to set up separate, dedicated factories for each item. Let’s make best use of our existing facilities with a bit of augmentation. This approach would be highly cost-effective!
As far as converter is concerned, we’re already manufacturing thousands of them for our UPS’s which are installed in each and every house now, thanks to load shedding!
It’s generally perceived and is true also that the cost of using solar energy is prohibitively high. But then somebody should answer my question too: If the cost is really that high, then how Nevarra is coping up with this high cost? The authorities in Nevarra must have taken some tangible measures to bring the cost down, out of which, one could be the manufacture of solar panels including solar cells indigenously. If the use of solar energy was that costly, then Nevarra would have abandoned this initiative long ago. I would also like to ask such people: If the cost is that high then why the entire Europe is still making use of this form of energy while the sunshine is very scarce in the European countries. We have to adopt measures to bring this cost down so that an ordinary Pakistani could purchase this system. And to do that, all the points are in our favour.
Investing in a solar electric system has many benefits. It allows you to produce your own electricity with no noise, no air pollution, and no moving parts. Moreover, this system would never run out of fuel (sun light), and it will help reduce the amount of greenhouse gasses emitted by coal and natural gas-fired power plants. Due to these unique characteristics, solar electric technology has been called “the ultimate energy source for the 21st centuryâ€.
There are countries where people using solar energy have covered the entire roof tops of their houses with solar panels. They’re generating electricity which is meeting, if not full, at least a part of their electricity requirements. As the cost of electricity provided by utility companies rises, they would be compelled to resort to solar energy in a big way.
In some countries, solar systems have become so popular that senior citizens are investing their pension money in solar parks. The solar panels in these parks are connected to tracking devices that generate up to 40% more energy than fixed systems. One solar park is owned by as many as 700 to 800 individual investors, each of whom owns one or two large solar panels in that park. The income received from these panels adds to their pension amount and is guaranteed to be paid by the utility companies for 25 years. The cost of such panels is substantially reduced with a tax concession from the government. As the annual income is guaranteed, there is a long waiting list of willing investors.
Another use of solar energy could be in the form of solar cookers. A solar cooker is nothing but a concave mirror fixed on a metallic stand. The mirror converges sun’s rays at a focal point through reflection where a utensil is placed that gets heated. I have myself taken tea prepared on a solar cooker! Just imagine! Six thousand refugee families in Sudan are making use of these cookers successfully. Earlier, the women folk used to go out and bring thorny bushes as fuel for cooking purposes. With the arrival of the solar cookers, this practice has ceased and the forests are also saved. The people living in our hilly areas can emulate their example and use these cookers which might not be costing more than Rs. 1000 each! I may mention here that a solar cooker doesn’t utilize solar cells. It utilizes just the reflection of sun’s rays, and the sun’s rays are free!
To conclude, it can be said that solar energy is one of the most viable options for Pakistan. Even countries with less sun light are making the best use of this free resource (sun light). We, in Pakistan, aren’t short of sun light as sun shines on the entire length and breadth of the country throughout the year. We can make use of this inexhaustible resource and contribute towards meeting the shortfall of electricity. If we don’t do it now, then it would be just a matter of time when oil would be touching $ 200 a barrel and the World Bank would be pressing us hard to increase the electricity price by 100 %. Then, we would be left with no option but to grab every opportunity to generate electricity from any available source, what-so-ever! We should opt for the manufacture of solar panels including solar cells in-country. For this purpose, we should establish not one but several factories for the manufacture of solar panels and cells in Pakistan. We have unimaginable quantities of raw material at our disposal and our manpower is second to none. With the availability of abundant raw material at throw-away price and the cheapest yet highly skilled technical manpower, the profits that would be accrued is mind boggling!, It’s said that if enough solar panels using indigenous solar cell are installed and energy efficiencies are ensured, the home owners can receive a zero power bill!
Author’s Contact:
Author can be reached at: azfar44@hotmail.com
Photo Credits:
Photos for this post are courtesy of Saqib from his album Thar and Everywhere.
Another use of solar energy could be in the form of solar cookers. A solar cooker is nothing but a concave mirror fixed on a metallic stand. The mirror converges sun
This article presents too rosy a picture regarding solar energy.
Firstly, you suggest that solar cells should be manufactured locally. Considering the finance requirements, lack of interest of banks in giving loans without a substantial collateral, and the political situation, setting up a local manufacturing facility is not really feasible. And let’s face it; all businesses are there to profit. You are suggesting that this nation produce solar cells when we haven’t even been able to set up basic facilities to design and manufacture resistors or even basic ICs. Solar cell manufacturing isn’t wand waving. You need a supporting industry which is just not there.
Also, considering the tax structure in Pakistan, it is almost always cheaper to import the finished product and selling it rather than importing the mere raw materials and making the product yourself and then selling it. The government seems to have no interest in developing the local industry considering its policies and tax structuring.
I am not saying that local companies aren’t making innovative products. To the contrary, there is a lot of work going on but it still doesn’t involves manufacturing of solar cells/panels. Rather, it is centered around using solar panels to achieve a particular end. An example of an innovative product which is relatively unique worldwide and being manufactured by a Pakistani company Elektro Control Industries is the solar aviation lamp used at airports. Read more about it at the link below since I don’t want to digress from the main topic:
http://site.ecipak.com/products/solar-power-altern ate-energy/solar-aviation-light
I know of only one entity “assembling” panels imported from abroad but it is government funded and as all things government go, their panels are of low quality and more expensive than importing higher quality panels from abroad. Note the emphasis on “assembling” because no complete manufacturing is occurring here. It’s just like the automobile industry in Pakistan most of which imports kits in knocked down form from abroad and merely assembles them here. No wonder Honda Atlas ( http://www.honda.com.pk/ ) and Indus Motors ( http://www.toyota-indus.com/ ) haven’t introduced hybrids or gas based cars because they aren’t familiar with the concept of innovation.
I have to admit it made me smile when you mentioned hiring of retired defense personnel.
I would suggest you to factor in the cost of taxes and duties too. It has been my observation that employees in government institutions and defense forces pretty much have a blind spot with regards to this which isn’t true for private entrepreneurs and businesses.
Even aside from that a 10% “commissioning fee” will also be demanded by our illustrious President, aside from those “charged” by other government departments if a large scale manufacturing facility is launched. :D (and yes, that was mere humor though it does makes one think…)
By stating “good batteries”, do you mean wet or SLA batteries? I ask, because SLA are far better than wet ones and they are being imported by various distributors. To my knowledge, facilities for manufacturing of good quality SLA batteries is not being done inside Pakistan. Do share if you have knowledge to the contrary.
About the cost, I am of the opinion that the real barrier is the psychology of the Pakistani market. When people here pay, they want immediate return while the investment in solar power has returns distributed over 10-20 years, depending on usage.In the longer run, it is cheaper but the consumer only sees the upfront cost of it which is considerable. Perhaps a way to bring down the cost would be to split the cost 50-50 between an individual and Wapda. In return, unused power generated by the solar panels can be fed back into the grid. Of course, this is contingent upon millions of people using this scheme to make it viable for Wapda.
In my opinion there should be some law binding major energy producers to produce a percentage of their production via alternate energy sources. Also the major industrial consumers of electricity should be bound by law to use a percentage of their demand via solar or wind energy, instead of using heavy duty diesel-run generators.
The government can also encourage investment in production of electricity via alternate sources by paying higher per-unit price for the electricity produced by alternate energy sources.
I remember I saw solar panels in use at some point between Phunder and Teru. Even in Lahore, some company was advertising solar panels for domestic use. How I wish we could use this source of energy for day-to-day needs especially when we have a lot of sunny days. But I always fear sarkari white elephants would never let such cheap alternate energy sources reach the common man so easily :(
Nice review. I think it is one area in which this country can be a net exporter of technology, if we play our cards right.
Every year there is a seminar of the “best and brightest” of Pakistan, in which special emphasis is placed on eating … oh sorry, developing some thing which can revolutionize Pakistan. The idea was floated by someone inspired by Finland model whose mobile industry has put that country on the techno-geographical map.
Hope someone will adopt the proposal in this article.