As the planet runs
out of fossil fuels, humans need to find viable alternatives to produce energy
and electricity if they are not to return to the dark ages again. Already
rising fuel costs are putting a strain on humans. Aside from temporary ups and
downs this strain is bound to increase in future since simply put, we reduce
the amount of available fossil fuel every day we live while no new such fuel is
being produced. It takes millions of years for mother earth to produce these
fuels that have driven modern civilization over the past few centuries.
Photovoltaic systems
that produce electricity with help of sunshine are emerging as a promising
alternative. The primary difficulty so far has been cost but their costs have been coming down over the past few years. Already
for certain applications they have become competitive with traditional methods.
For example the cost of electricity from these solar cells is cheaper than
diesel generator sets for stand alone operations such as agricultural water
pumps, communication towers etc. Part of the cost is that of the accessories
such as invertors and storage batteries. However, when these are eliminated as
they can be when they are used for daytime operations like water pumping or
when they are supplementary to a grid, then costs come down further. Such
systems are most attractive in countries with abundant sunshine such as India rather than Europe. Another feasible battery less application is air conditioning in hot summers. The sun is up when space cooling is needed most.
Some experts have
argued against photovoltaic systems in Europe
on the basis that there are cheaper methods available to reduce carbon
emissions that fossil fuels produce. This is true because the cheapest way to
reduce carbon emission is just to plant some trees. However in this article
photovoltaic systems are not being viewed as a means to reducing carbon
emissions but rather as one to produce affordable electricity.
Countries such as India that
import crude oil would do well to encourage and maximize use of
photovoltaic systems. As already mentioned, this electricity is already
competitive in certain stand alone applications. A second method is for governments
to permit individual home or commercial owners to connect their small systems
to the grid with a payment for the electricity they supply to the grid whenever
it is surplus to their needs. Home owners can thereby reduce their electricity
bills and even earn a profit.
Whenever governments
are asked to encourage a technology the mind of administrators goes towards
providing subsidies. This method proves to be counter productive in the long
run. Not only does it strain government budget, it also distorts proper
development of technology by distorting prices. It also encourages creation
of inefficient industries that live on subsidies. There is another way that
governments can encourage rapid development of photovoltaic systems. It is
through a tax policy. In a much older post this blogger had suggested the use
of taxation policy for reducing carbon emissions. This blogger is happy to
announce that such policies are now implemented in several countries in various
forms. Here is a proposal to encourage the use and development of photovoltaic
systems:
Let the government announce that any industry that has a
turnover of more than fifty percent from sale of solar photovoltaic panels will
be completely exempted from corporate taxes.
Such a regulation
will result in cheaper photovoltaic systems and encourage many industries to
produce this product in order to make use of generous tax benefit not just
on their solar panels but also the other fifty percent of products whatever
they may happen to be, even soaps and
perfumes, if not the accessories of the solar panel. True the government would
lose some tax revenue but they would gain by reducing their trade deficit for
importing crude. This system can also become a savior of many communities where
electric supply from the grid is poor or absent.
The present tax concession is just one suggestion. Other innovative solutions may be devised. A second idea needs consideration since that might encourage private owners to introduce SPV systems in their homes is if an additional advance could be arranged for the home owner that is deducted monthly by adding to his electricity bill. If the home owner contributes to the grid he would not feel the burden of this deduction and eventually perhaps over an eight year period would end up with a free system.
UPDATE, August 22. 2014
The present tax concession is just one suggestion. Other innovative solutions may be devised. A second idea needs consideration since that might encourage private owners to introduce SPV systems in their homes is if an additional advance could be arranged for the home owner that is deducted monthly by adding to his electricity bill. If the home owner contributes to the grid he would not feel the burden of this deduction and eventually perhaps over an eight year period would end up with a free system.
Needless to say all these proposal are effective only if home owners are permitted to link to the grid so that they can cut down their bill or even get a credit if they feed in surplus. It would provide individual homeowners with an incentive to install such systems and give a huge boost to such production. That is something that has not been done in many countries yet and needs to be done in any country that is serious about increasing use of Solar energy for electricity. It is hoped that International climate change groups that are focusing on broader issues would focus on such specific issues as well, over which agreement can be achieved more readily and thereby help make the planet greener, sooner.
UPDATE, August 22. 2014
India
and other countries need to catch up on the benefits of linking home systems to
grid quickly as revealed by the following:
“In the last several years solar installations in the U.S. have increased approximately six-fold from 2,000 megawatts to 12,000 megawatts as installation prices have dropped by more than half. Approximately 200,000 American homes have already gone solar and SolarCity, a top residential solar provider, estimates that another 30 million could benefit from installing a solar system.”
From: http://thinkprogress.org/climate/2014/08/21/3471998/homeowners-associations-solar-power-future/
Comments
In Faridabad we have to depend on dg sets for 20 to 30% time anyway. With a 60kw connection we consume about 2500 units per month.
Dear sir/madam, My company is ready to sign PPA for just 5 Nia Paisa per each Kilowatt with any Govt and each MW cost is just 350000 US$,with construction time just 365 days.
We are happy to extend our services in providing 100% green electricity to the entire Industrial Sector of India at a nominal unit price of just 5 nia Paisa.
We are ready to generate from 1 MW to 30 MW in C drop Canal cascading application technology using still water and rotate the same water again and again.
In this technology land requirement is also very little compared to any other power generation sector
In this technology any water from any water body can be used.
MODI JI , We humbly ask your esteemed support to help implement this Green power Generation project in the entire Industrial sectors of all independent states in India.
Please show your real Interest :– CHAGANTI
seawaterelectricityltd@gmail.com
+918099882376
Sir, I am practical and very soon you all see this happening too. I am designing a 40 KW power plant , just 2 independent turbines fixed one after another . I have the land & Civil work will start any time so please wait for a little more time With regards
Chaganti
+918099882376
The installed capacity of the total pumps will be 1480000 Watts or 1480 KW because each single pump is only 370 watts or half HP.
If 20000 liters per second is made to flow down in a C drop cascading canal application , the water is released from 25 m vertical height and the total length of the canal is 1000 m long.
For every 100 m there is a 3 m drop and 20000 liters of water is flowing all 365 days from 25 m vertical height to the ground level.
For every 100 m length of the canal the entire canal is always full and the canal is 4 m in width and .5 m in depth in this space a round spherical turbine (barrel shaped) is hanged on 2 pedestal bearings one on each side and the turbine .5 m height fin or blade is totally submerged inside the canal C drop starting area. Every second the canal will get 20000 liters per second and this 20 tons weight is rolled over the fin or blade and the round barrel type turbine is rotated at 60 RPM having 4500000 NM torque and is connected to a speed increasing gearbox having 600 RPM ( 60 RPM from turbine to 600 RPM From gearbox with load ) generating 6 MW having 6400 Amps.
As the 3 m drop is constant then for each drop a 6 MW generator is erected there by 7 independent turbines are erected in the 1000 m long C drop cascade and generate 42 MW per every one hour.
1000 m long Bottom side of the ground reservoir is always full of water
20000 liters per second Water is pumped only 25 m vertical height and the 20000 liters water is rotated in 7 independent C drop cascading turbines fixed on after another slanting sloppily down arrangement
Chaganti
Solar Arizona
Solar Las Vegas