Global
NRG Ltd is a vertically integrated WTE (Waste to Energy),
renewable energy and energy storage group based in BVI, with
offices and representation in a number of countries. Our
state-of-the-art processes
harness the calorific values of various wastes to manufacture
green renewable energy in the form of
Charcoal,
briquettes,
wood fuel pellets, green
electricity and heat, synthetic gas (Syngas), biogas, RNG
(Renewable Natural Gas) and biodiesel.
Our Energy
Storage division Global NRG Storage Ltd has technologies for
storing electricity in silicone batteries, Hydro storage, HES
(Hydraulic Energy Storage), and ARES (Accelerated Rail Energy
Storage).
Global NRG is
developing renewable energy
resources through carbon sink forests planted with
Jatropha a non food crop
that yields a high level of oil suitable for making biodiesel
and organic fertilizers, and a special species of
NRG algae that yields high volumes of
vegetable oil suitable again for conversion into biodiesel and
high protein cattle feed.
Global NRG operates a biodiesel division manufacturing
biodiesel and builds plants.
NRG Wind is a division of the
Global NRG group. Manufacturing small to medium sized wind
turbines for areas of high average annual wind speed, Global
NRG uses matrixes of turbines aggregated to provide a
mini power station of up to 2 MW. These wind turbine matrixes
are backed by biogas generation plants which provide
electricity via gas internal combustion engines coupled
to alternators, so as to provide backup up power when the wind
velocity is of insufficient strength. When the backup
generation is not required the biogas is sold into the
commercial market, resulting in the backup generation plant
being a independent profit centre.
One of Global NRG's primary
processes pelletizes various wastes such as MSW
(Municipal Solid Waste), Green waste, sewerage sludge and
biowaste into NRG pellets which are then a green renewable
energy source.
The Global NRG process for MSW reduces
the need for landfill by up to 96% and old landfills can be
re-mined if needs be to access their energy content.
Using the NRG pellet process is an important step in reducing
Climate Change, as landfills are one of the major contributors
of GHGs (Green House Gasses). A tonne of waste deposited in
landfill will continue to create GHG for 24 years or more.
The NRG pellets are used to
provide alternate energy in a number of applications including
heating steam to drive electricity generating
turbines, distilling grey and non-potable water, heating
buildings and providing energy for industry, for driving
desalination plants at a lower cost per Mega litre, for use in
cement, brickworks and mining kilns and for
gasification into a synthetic
gas ( Syngas) which can be used to drive internal combustion
engines coupled to electric generators, in boilers, gas
turbines, for household and industrial use, to produce
methanol and biodiesel, and as a chemical feedstock to produce
a range of valuable products.
Syngas has similar properties to natural gas and is a low
carbon emitter.
In simple language,
wastes such as municipal
waste, biowaste such as wood and forestry wastes, crop wastes and green waste, reoccurring feedstocks, can
be used as green renewable energy resources, thereby reducing
the millions of tons of CO2
emissions from the atmosphere generated from using fossil
fuels. The energy derived from generating green
electricity, simultaneously provides an
environmentally friendly solution to the ever increasing
amounts of household and biowaste and the need for landfill.
Other steps being taken towards
find additional renewable energy resources involve experiments
now being conducted which grow specialized algae that have a
high level of CO2
absorption. Oil is then extracted from the algae via
bio-generators which is then converted into biofuel. The
residual matter is used to provide a cattle feed.
Visit the first totally green village we are creating in
Kake in Alaska
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Electricity produced using the
Global NRG processes are a constant power supply unlike hydro,
solar or wind power, and are therefore able to support base load to the power
grid, or the electricity generation can be used
to support peak period supply needs, with no carbon emissions,
thus providing the additional potential benefit of earning
carbon credits from the ETS whilst doing so. Plants are already operating in
USA, Europe, Canada, Thailand, Vietnam, Cambodia, China and Russia.
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