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| Typical Municipal Waste site |
The
recent mine disaster in Turkey,
which claimed more than 300 lives has sparked wider debates and discussions
over the use of fossil fuels and Turkey's dependency on foreign
energy. Turkey has an obligation to pursue clean energy, despite
the fact that the government has not pursued a transition to renewable energy
sources, as some developed countries have. Whilst some limited progress has
been made in the development of renewable fuel sources, in the form of Wind and
Solar power farms, there seems to be no apparent government drive to pursue
renewable energy opportunities although in fact, Turkey is sitting on vast
quantities of potential energy resources in the form of Municipal Waste.
This column has
avidly advocated Renewable Energy farming for a number of years now, with
numerous articles published on the theme. This particular piece explains how
converting municipal waste to energy provides not only a clean energy solution,
but also significant employment opportunities whilst Turkey could actually
become energy-self sufficient by way of harnessing a variety of renewable
energy sources.
As with every country in
the world, Turkey retains countless billions of tonnes of municipal waste. Istanbul itself produces some 50,000 tonnes
of this material on a daily basis, the equivalent of 18.24 million tonnes per
annum. Scaled up across the whole country, the totals are close to being
incalculable. In Turkish Cyprus and at long last, the government there have
finally woken up to the need to deal with their waste problem and they already
have a W2E plant coming online shortly, this being based on anaerobic
digestion. There is tender out now, for a Municipal Waste to Energy plant and
a waste feed of some 287,000 Tonnes is estimated to be available for
processing. A significant contribution to the energy requirements of the TRNC would
be made from this source and when combined with other renewable sources, plus
HEP coming in from Turkey
with the water pipeline, an energy surplus is a strong possibility.
One solution could be in
the form of a Waste to Energy Pyrolysis (gasifier) process which is
manufactured by a company called Chamco Inc in the USA: This involves the
conversion of the waste feed into briquettes which are then fed into a gasifier
which in turn creates a product called SYNGAS and it is this which ultimately
produces the electricity. This Waste to Energy plant comes in a modular form
which starts at a 40 Tonnes Per day, I Megawatt unit, but it can be constructed
to process up 1000 metric tonnes of Municipal Waste per day, which in turn
converts to 25 MWH of energy daily. The approximate project cost for a 1000 TPD
/25 MWH plant would be around $102.5M, however based upon a feed-in tariff of
$0.30 per KW (Kilowatt), this equates when scaled up on an annualised basis to
$2.74 Million. Add to this a further revenue potential of approximately half a
million dollars a year by way of charges made to waste delivery companies in
the form of a ‘gate fee’.
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| Waste Tyres blighting the landscape |
There are additional
opportunities to maximise revenue too, for if you have a Waste to Energy
production plant based on a landfill site, there is nothing to stop you in theory
at least, of having solar array installations and possibly wind turbine towers
too, depending upon the location. This would then give rise to three energy
source potentials from renewable resources, a form of ‘mixed crop energy
farming’, something that has already been suggested by this column sometime
ago. Rolled out country-wide in the case of Turkey, and in a very narrow time
frame, these energy farms would not only self-finance but would provide
employment for up to 150 people per site and with a shift-system in place,
could operate 24/7 and 300 days a year allowing for maintenance.
The entire W2E process can
earn Carbon Credits if the plant owner subjects the project to UNFCCC (United
Nations Framework Convention on Climate Change) evaluation. Each qualifying
process has the following GHG (greenhouse gases) reductions:
1. Waste Processing: Locks
into the briquettes any potential GHG that could be released by any other waste
oxidation process such as burning or land-filling.
2. Gasification: Transforms
briquettes and other Bio-masses fuels to be transformed into a gas which is
retained for further processing. This is an important source of additional
income since the operation of the plant will earn carbon credits on a yearly
basis.
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| Reinstated Landfill site - A greener future for our Great Grandchildren to enjoy |
The above examples show
clearly that a country of the size and population as Turkey can benefit enormously by
tapping into resources the country already possesses in vast quantities. The
goal of becoming energy self-reliant will be materially augmented by adopting
Energy Farming techniques and is highly attainable in a realistic time frame.
By
Chris Green
Chris Green
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| Beşparmak Media Services |
