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AUSTRALIAN CLEAN ENERGY SUMMIT 18-19 July 2017, Sydney
Energy security innovations for
Australian homes & businesses
By Jasbir Singh
Managing Director
Global Solar World
2 AGENDA
1. COMPETITIVE ENERGY MARKET‘S DRIVERS
2. TRANSITION FROM CONVENTIONAL TO RENEWABLE ENERGY –India as a Case study
3. ADGEX COMPANY BRIEF
4. energyBRICK –Power to the people of Australia when it is needed, where it is needed
3
COMPETITIVE ENERGY MARKET‘S DRIVERS
Science & Engineering
DRIVERS:
Energy SecurityClimate Change Market
Economy Resource DiversityEnergy Storage
Technological Innovation
Economic
transformationBe
havi
oral
Ch
ange
Customer Needs
CONVENTIONAL ENERGY OVERVIEW- INDIA AS A CASE STUDY
CONVENTIONAL ENERGY RESOURCE
• In a conventional Energy Scenario,
Generation resources located in few
pockets
Hydro potential in NER and upper
part of NR
Coal reserves mainly in Central
India
Large coast line – imported coal
based projects (AP, TN &
Gujarat)
• Load Centre are in South, Western
and Northern Part of the country.
• High Capacity Transmission lines are
facilitating establishment of large
energy market on real-time basis.
- INDIA AS A CASE STUDY
Central Grid
S
W
N
E
NE
October 1991East & North-East
synchronized
March 2003West synchronized
With East & North-East
August 2006North synchronized
with Central Grid
Dec’2013South
synchronized with
NEW Grid
One NationOne Grid
One Frequency
EVOLUTION OF NATIONAL GRID
NEW* Grid
SouthGrid * North East
West
Existing I-R Capacity : 44,250 MW
Planned IR Capacity : 76,450 MW
Five Regional GridsFive Frequencies
1st ckt (POWERGRID) Raichur-Sholapur
Inter-Regional Link commissioned in Dec’2013
2nd ckt of Raichur-Sholapur line commissioned in Jun’14
Source-Powergrid
- INDIA AS A CASE STUDY
HIGH CAPACITY TRANSMISSION CORRIDORS
Present Inter-regional Capacity:
44,250 MW
5100
14100
28000
76,450
2002 2007 2012 2017
IR Power Transfer Capacity
(at the end of Plan period)
Planned Inter-regional Capacity:
76,450 MW
- INDIA AS A CASE STUDY
TRANSMISSION NETWORK UNDER IMPLEMENTATION
• High Capacity Power
Transmission Corridors (“HCPTC”)
(400kV/765kV AC and +/-800kV
HVDC transmission highways)
being developed in phases
• Estimated cost of corridors above
USD 20 billion
• Regulatory approval from CERC
for cost recovery from State and
private distribution utilities
• Financial condition of State
distribution Utilities is not very
good.
- INDIA AS A CASE STUDY
TRANSMISSION SYSTEM – ENERGY RESOUPCES MAP- INDIA AS A CASE STUDY
• Strong back bone of 400 kV –
Overlay of 765 kV & high capacity
HVDC under Implementation.
• All India synchronous grid – One
of the largest in the World.
• Thriving Pan-India Single Market
enabled.
• Under new concept of planning,
11 nos. of high capacity corridors
evolved - to reduce the depen-
dency on a particular generation.
• These corridors facilitate about
44,000 MW power transfer and
plan is to increase it to about
76,000 MW
• No congestion in LTA, Congestion
only in STOA & MTOA : Total
congestion in 2013-14, about 5.6
BU (0.6%) as against annual
generation of about 950 BU
IMPACT OF CONVENTIONAL ENERGY SECTOR
• Large Investment in Ultra Mega
Thermal Power Projects from State
and Private Sector
• Major investment on Ultra HV
Transmission Network for formation
of National Grid
• As per IEA Special report 2016
“Energy and Air Pollution”
“Eleven of the world’s 20 most polluted cities are in India and poor air quality is already a major public health issue: around 590 000 premature deaths were attributable to outdoor air pollution in 2015 and about 1 million premature deaths to household air pollution. Average life expectancy in India today is reduced by 23 months”
- India as a Case Study
Source: Bloomberg article dated 16th June 2016 - Fossil fuels for electricity reached peak
THE FASTEST GROWING POLLUTER- INDIA AS A CASE STUDY
COMPARATIVE ENERGY CONSUMPTION
Source: India Energy Outlook 2015 - World Energy Outlook Special Report
- INDIA AS A CASE STUDY
FUTURE ROLE OF SUSTAINABLE ENERGY- INDIA AS A CASE STUDY
ENERGY RESOURCE
Solar and
Wind
Resources
Conventional Power
Source
- India as a Case Study
• With major Indian Govt boost on Solar
projects, large Utility Solar projects are
planned on Western and along the Coastal
areas of India.
• Load Centre are in South, Western and
Northern Part of the country.
• It can have major disruption on the
following
• High Capacity Transmission lines to
facilitate establishment of large
energy market on real-time basis.
• Large coast line – imported coal
based projects (AP, TN & Gujarat)
• Renewables (solar, wind etc.) with storage
can act as peaking power to participate in
energy market as these are planned to be
connected with High Capacity Network.
SOLAR ENERGY IMPACT
Source: http://www.indiaenergy.gov.in/supply_photo.php
• On 31st May, 2016, Installed
capacity of Solar power is
6762MW, nearly seven fold
increase in four year i.e. from
941 MW as of 31st March
2012.
• 20,000MW in 21 States under
33 Solar Parks are under
various stages of
implementation
• Solar Plant with 4-6 hours’
storage (to meet both morning
and evening peak loads and
double plant load factor up to
40%) will be next stage of
implementation.
- INDIA AS A CASE STUDY
ECONOMIC CO-EXISTENCEIN A COMPETITIVE ENERGY MARKET
GROWTH OF SUSTAINABLE ENERGY (2014-40)
The World
has turned forever
towards Renewable Energy
- ADVANCED GREEN EXRETISE
ENERGY STORAGE SOLUTIONS: • SEVA • EnergyBRICK
ENERGY GENERATIONS:• GreenBLAZE -waste-to-energy processor• GPA
SMART PUBLIC TRANSPORT:• UPRAIL
EnergyBRICK -IS A GRID SCALE BATTERY STORAGE COMPLEX
See a demonstration of energyBRICK at ADGEX Limited’s official YouTube channelhttps://www.youtube.com/watch?v=AJNpM3yTGoM
EnergyBRICK -OUT-DOOR APPLICATION
energyBRICK can be used in different industries and residential areas as a backup energy
source to optimize a power management system and avert power blackouts and outages.
Mobility delivery
of energyBRICK
complex Mobile
power source to
locations and
remote areas.
EnergyBRICK -IN-DOOR APPLICATION
• energyBRICK (SEVA) can be used
as a residential back-up power
source, allowing forming a local
network to disconnect facilities from
centralized power systems.
• SEVA can be connected to the
electricity grid or any other non-
conventional ways of power supply
like solar or wind in order to
accumulate sufficient energy from
these sources during off-peak
hours and then power up the house
when rates are high.
• SEVA is a long-lasting and highly
efficient back up power source,
protecting sensitive industrial
equipment and susceptible
household appliances from power
blackouts and outages.
GREEN ENERGY DISTRIBUTION
THE BENEFITS OF GREEN
ENERGY DISTRIBUTION:
• Delivering the energy to any hard-
to-reach areas, making remote
communities self-sufficient and
energy independent;
• Providing rapid energy supply in
case of emergency;
• Forming local micro grids for
industrial applications to enable
individual sites to be less reliant on
centralized power systems;
• Establishing back-up power
sources to relief state power grid
overloads and prevent voltage
deviations.
SMART URBAN ENERGY PLANNING
ENERGY BRICK - IS COMPLIMENTARY TECHNOLOGYFOR SMART URBAN ENERGY PLANNING
THANK YOU
CONTACT DETAILS:
INNOVATIVE GREEN AND SUSTAINABLE ENERGY GENERATION & STORAGE – energyBRICK
