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Technical Cooperation throughNEDO International Projects
February 15, 2010
Shigeo NaruseDirector General
International Projects Management Division
Energy and Environment Technology Center
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(1) What is NEDO?
(2) NEDOs R&D Activities
(3) International Activities
(4) Recent Developments & NEDO
Activities in India
2
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(1) What is NEDO ?
3
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Approximately 1,000
Approximately US$2.4B* =12,000 Crore Rs** =\234.7Bin FY 2009
*$1=\100**\100=50Rs
Oct. 1980: Established as New Energy Development Organization
Oct. 1988: Activities expanded to include industrial technology R&D; name changedto New Energy and Industrial Technology Development Organization
R&D related to industrial technology, new energy and energy efficiency
technologiesIntroduction and deployment of new energy and energy efficiency technologiesOther related activities
4
ActivitiesActivities
HistoryHistory
PersonnelPersonnel
FY2009 BudgetFY2009 Budget
Profile of NEDO
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National R&D Scheme in Japan
Council for Science and Technology PolicyCouncil for Science and Technology Policy
Develop National-level Strategy
Coordinate Ministry Policies
Chair: Prime Minister
Other MinistriesOther Ministries
Budget
Ministry of Economy, TradeMinistry of Economy, Trade
and Industry (METI)and Industry (METI)
Ministry of Education,Ministry of Education,
Culture, Sports, Science andCulture, Sports, Science and
Technology (MEXT)Technology (MEXT)
NEDONEDO
IndustryUniversities
R&D Management
Public Research Laboratories
Grants Subsidies
(Consortium)
Private CompaniesUniversities
4
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6
Organization of NEDO(as of September 2009) General Affairs and Policy Planning Department
Accounting Department
Assets Management Department
Information and Systems Department
Industrial Technology Center
Research and Development Promotion Department
Nanotechnology and Materials Technology Development Department
Biotechnology and Medical Technology Development Department
Washington D.C., Paris, Bangkok, Beijing, New Delhi
Kyushu, Hokkaido, Kansai
AuditorAuditorss
Head OfficeHead Office
Branch OfficesBranch Offices
ChairmanChairman
PresidentPresident
Executive DirectorsExecutive Directors
Overseas OfficesOverseas Offices
Energy and Environment Technology Center
Environment Technology Development Department
Energy and Environment Policy Department
New Energy Technology Development Department
Energy Conservation Technology Development Department
Electronic and Information Technology Development Department
Personnel Affairs Department
Kyoto Mechanisms Promotion Department
AuditorAuditorSupport OfficeSupport Office
Fuel Cell and Hydrogen Technology Development Department
Clean Coal Projects Department
Project Evaluation Department
Inspection and Operational Management Department
Machinery System Technology Development Department
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7
(2) NEDOs R&D Activities
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81974
1980
1997
2000
1992
(Sunshine Project Initiated)
Establishment of NEDO
TF-Si Solar Cells
Crystalline SiliconSolar Cells
II-VI compound
Solar cells
Amorphous Sil iconSolar Cells
Residential PV System Technology
Low Cost SOG-Si Production Process
1MW Demonstrate
PV Plant (Saijyo)
PV System Demonstration
CIS Solar Cells
III-V High-eff. Solar cells
Basic Technology for Silicon
Solar Cells (wafer, cell-process)
500kW Pilot Production- Line for mc-SiSolar Cells
Technology for a-Si Solar Cells Production
1MW PV Power Plant
Low Cost mc-Silicon Solar Cells Production Technology
(Efficiency = 17.2%, 189 yen/W)
Thin Film Silicon Solar Cells (140 yen/W)(New Sunshine Project Completed)
NEDOs Present R&D Programs for Low Cost
Solar Cell and Module Production
BIPV module
Grid ConnectedPV System
BSF
Textured surface
Printing fine-electrode
AR-coating
Glass Substrate
Textured TCO
a-Si Top Cell
Sun-Light
poly-Si
Bottom Cell
Back Reflector
Interlayer
Japans PV R&D Achievements
Hybrid TF-Si Solar Cells
R&D Tasks R&D ResultsExamples of Programs (Energy Area)
F l C ll d H d T h l i R&D t NEDO
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FY2006
Fuel Cell and Hydrogen Technologies R&D at NEDO
Development of Highly Durable Membrane
LPG Reformers (2006-2008)
Development of SOFC System
Technology (2004-2007)
Development for Safe Utilization and Infrastructure
of Hydrogen (2003-2007)
FY2007 FY2008 FY2009 FY2011FY2010FY2005
PEFC
SOFC
Hydrogen
Codes &
Standards
Demonstrative
Research
Strategic Development of PEFC Technologies for
Practical Appl ication (2005-2009)
Research on Nanomaterials forHigh Performance Fuel Cells (2008-2014)
Fuel Cell Cutting-Edge Scientif ic Research Project
(METI: 2005-2007) (NEDO: 2008-2009)
Development of System and Elemental
Technology on SOFC (2008-2012)
Advanced Research on Hydrogen Storage Materials
(2007-2011)
Fundamental Research Project on Advanced Hydrogen
Science (2006-2012)
Development of Technologies for Hydrogen Production,
Delivery and Storage Systems (2008-2012)
Establishment of Codes & Standardsfor Hydrogen Economy Society (2005-2009)
Demonstration of Residential PEFC System forMarket Creation (2005-2009)
Demonstrative Research on SOFC (2007-2010)
Japan Hydrogen & Fuel Cell Demonstration Project
(METI: 2006-2008) (NEDO: 2009-2010)
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10
NEDOs Electric Energy Storage System R&D
Development of
Fundamental
Technologies for
Next-generationSatellites
Research and
Development of an
Energy Storage
System Using
AdvancedBatteries
Development of
Lithium Battery
Technology for
Use in FCV
Development of
High Performance
Battery System forNext-generation
Vehicles
Advanced Battery Electric
Energy Storage System
Development (LIBES)
FY2002 FY2006
85 90 95 00 05 10
FY2007 - FY2011
FY1992 FY2001
FY2003 FY2007
FY1980 FY1991
Li-ion
NAS, Zn-Br, Zn-Cl and RF Ni-MH, Li-ion
R&D Initiative for
Scientific Innovation of
Next-generation
Batteries
FY2009 FY2015
Grid-
Development of an
Electric EnergyStorage System for
connection
with New
Energy
Resources
FY2006 FY2010
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High-efficiency Heat Pumps
11
Technology is applicable to air conditioning and hot
water supply systems, which account for nearly 50%
of CO2 emissions in commercial/residential sector.
Further emission reductions can be expected with
this technology, which has drastically improved
efficiencies over conventional technology.
COP*
5.0
2002 2006 2010
2050
Twicecurrentlevels
10.0
All-in-one CO2 HPWH**
Conventional gas
water heater
Conventional CO2 HPWH**
*Coefficient of performance **Heat pump water heater
Cool Earth-Innovative
Energy Technology
Target
Air conditioning(heat from groundwater
Air conditioning& hot water heater(using desiccant)
0
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12
To develop technology
for long-life, highly-
efficient organic ELelement with high color
rendering of white
illumination and high
brightness by applying amultiphoton element
structure.
OLED Technology for High-efficiency Lighting
Project Outline
FY2004-FY2009
Project Duration
Residential Power Consumption
TV
10%
Clothes dryers
3%
Others
20%
Electriccarpets
4%
Air
conditioners
25%
Heated toilet
seats
4%
Dishwashers
2%
Refrigerator
16%
Lighting
16%
Directional
Light SourceDiffused Light Source
Pendant LightsIncandescent Lamps
OLED LED
Down Lights
Ceiling Lights
Spotlights
Bracket Lights
Fluorescent Lamps
Retail and
CommercialGeneral Households
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Grid Connection Technology
Wakkanai Solar Power
- Large-scale PV system
- Development of system stabilization technologies
Hokuto Solar Power
- Output control system using PCS,
storage cells
Ota Grid-Interconnection of Clustered
Photovoltaic Solar Power Systems
- Voltage fluctuation measures forinter-connect
solar power systems
- Testing ofstand-alone operation
Okinawa Stand-alone New Energy Systems- System stabilization when introducing large so
power sources
Hachinohe Micro Grid
- Demand matching within micro grid
Tomamae Wind Farm
- Power storage techniques to handle
short-term output fluctuations
- Output forecasting methods
World-leading Technologies- System stabilization control technology
- Energy efficiency technology
- Demand side technology
(Source: NEDO Proving tests related to Smart Gri
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14
(3) International Activities
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15
Collaboration through Parallel Funding
Collaborative ActionCollaborative ActionCollaborative Action
NEDONEDO
Collaborative Work
R&D&I, road mapping, evaluation, etc.
Collaborative WorkCollaborative Work
R&D&I, road mapping, evaluation, etc.
Teamsin foreign countries
Teamsin foreign countries Team
in Japan
Teamin Japan
PartnersPartners
in foreign countriesin foreign countries
Support
Support
Domestic R&D support
schemes that place a highvalue on internationalcollaboration (subsidies orentrustment)
Concentration multi-junction solar cells (EU)
Mi id D t ti i L Al N M i
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16
Microgrid Demonstration in Los Alamos, New Mexico
Demonstration of concentration power storage or home demand response
9 Concentration PV generation and power storage system will be installed on dist ribution l ines of about 2 to 5 MW.
9Experiments on absorbing PV output f luctuations will be conducted using various PV introduction efficiencies obtained by changinggrid formation.
9 A d istr ibut ion network w ith high operabi li ty wil l be installed and demonstrated by introducing smart d istr ibut ion equipment
(distribution equipment with IT capabilities).
Smart
grid
house
Microgrid Demonstration in Commercial Area in Albuquerque
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Microgrid Demonstration in Commercial Area in Albuquerque
Demand response demonstration using facilities in industrial or
commercial buildings
9 Project is designed to demonstrate highly reliable building power system that can continue operating by using power
storage systems, gas engine cogeneration, fuel cells, a heat storage tank, solar cells, etc. when grid connection to
buildings is cut.
9 It will be demonstrated that solar output fluctuations on a microgrid can be absorbed by using EMS in buildings and
grid and by controll ing building facilities.17
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NEDO Projects in Asia
18
Energy Efficiency Model Projects
(46 projects in 9 countries)
Coal Utilization Model Projects
(30 projects in 6 countries)
International Cooperative Demonstration
Projects Utilizing Photovoltaic PowerGeneration Systems
(21 projects in 10 countries)
As of April2009
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19
(4) Recent
Developments & NEDOActivities in India
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Growing Energy Supply in India
Supply will double by 2030
Equivalent to adding one more Japan in 20 years
SourceHandbook of Energy & Economic Statistics in Japan, 2009
2006Japan: 528
India: 556
Primary Energy Supply
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Electricity Generation Peak Demand/Supply
12% Shortage
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Energy Production and Imports (2008)
2Source: BP statistical review, 2009
73% of oil, 26% of natural gas and 16% of coalare imported
CO2 Emissions
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CO2 Emissions
Worldwide CO2 emissions (2006)(Million t)
SourceHandbook of Energy & Economic Statistics in Japan, 2009
Total CO2 emissions volume is 4th highest in the world.
Emissions per capita are 1.1t.
Total27,347
CO2 Equivalent
Million t
National Action Plan on Climate Change
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National Action Plan on Climate Change
Solar energy 20,000MW from solar power and thermal, by2020
Enhanced energy
efficiency
10,000MW energy savings by 2012
Sustainable habitat Improved energy efficiency of housings, officebuildings, public transportation, waste
management
Water resources Water conservation, optimal river managementHimalayan ecosystem Ecosystem preservation and monitoring of
glaciers
Forestation Forestation of 60 lac ha, Green India
Sustainable agriculture Measures for drought, risk management
agricultural studies
Strategy for climate
change
Ensuring funding, research, observation, data
management
Announced on 30 June, 2008
National Solar Mission
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National Solar Mission
Jawaharlal Nehru National Solar Mission
Cabinet approval on 19 Nov., 2009 Setting target 22,000MW by 2022
Budget plan: 4337 crore Rs. estimation
Applied area Target for 1st st.
-FY2012
Target for 2nd st.
(FY2013-16)
Target for 3rd st.
(FY2017-22)
Solar energy collector 70 lac m2 150 lac m2 200 lac m2
Solar power generation,
off-grid
200 MW 1,000 MW 2,000 MW
Solar power generation,on-grid (inc. rooftop)
1,000-2000 MW 4,000-10,000 MW 20,000MW
E S i A ti iti
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Major implementations and resultsduring 11th plan (FY2007-2011):
Bachat Lamp Yojana Replacement of incandescent bulbs with CFL in households
Result: 54 lac distributed in HP from 11/08-03/09, 164 MW
Standards & Labeling (S&L) Minimum energy performance standards with 5 stars (AC, refrig., etc.)
Result: 599.44 MW
Energy Conservation Building Code (ECBC) Minimum energy performance standards for new commercial buildings
Result: 11 buildings, estimated savings: 6.1MW
Energy Saving Activities
Source: Verified Energy Savings related with the activities of BEE for the year 2008-09 (July 2009)
Designated Industries
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Designated Industriesunder Energy Conservation Law
Sector Scale
Thermal PP Over 30,000 MTOE annuallyFertilizer Over 30,000 MTOE annually
Cement Over 30,000 MTOE annually
Iron & Steel Over 30,000 MTOE annually
Chlor-alkali Over 12,000 MTOE annually
Aluminum Over 7,500 MTOE annually
Railway Over 30,000 MTOE annually or regulated
figure by Ministry of Railway
Textile Over 30,000 MTOE annually
Paper, pulp Over 30,000 MTOE annually
Revised energy conservation law, March 2007
Energy Conservation Building Code
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EPI: Energy Performance Index (kWh/m2/year)
From 1 (lowest) to 5 (highest) ratingFor office buildings with capacity over 500kW
- 3 climate zones: Warm and humid, composite, hot and
dry- Rate of air conditioning: under 50%, more than 50%
Future plan:- 5 climate zones
- variation of sorts of buildings:
office buildings, hotel facilities, hospitals,shopping malls and IT parks
Energy Conservation Building Code(as of Feb. 09)
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NEDO Activities in India
29
ModelProjectsIncreasingtheEfficientUseofEnergyusinga
CokeDryQuenchingSystem
UtilizationofSensibleHeatfromBlastFurnace
hotstove
Waste
HighlyEfficientCoalPreparationTechnology
WasteHeatRecoverySystemofCementPlant
ConvertingaDieselGeneratortoDualFuel
Operation
SinterCoolerWasteHeatRecovery
CooperativeResearchProgramLongTermReliabilityofPhotoVoltaicModules
Studyof
Micro
Grid/Smart
Grid
in
Neemrana
EnergyEfficiencyAnalysisCementIndustry
IronandSteelIndustry
RepresentativeOffice7th Floor,HotelLeMeridien CommercialTower
Raisina Road,NewDelhi110001India
Tel:+911143510101
Fax:+911143510102
55
44
11
11
66
33
44
22
33
2211
Bilaspur
NewDelhiAjmer
Pune
Vishnupuram
Reddipalayam
Vishakapatnam
Angul
RaurkelaJamshedpur
1
2
3
4
6
1
1 2 6
3 4 5
5
55
66
NEDO
As of December 2009
2
O
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Model Projects Objectivesfor Energy Efficiency and Coal Utilization
Objectives:
- To introduce and demonstrate effective energy efficiencyand clean coal technologies already in practical use in
Japan to host countries
- To support the self-help efforts of host countries by sharing
tasks and costs for projects
- Implementation and technology deployment
(Not ODA projects)
30
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Model Project Implementation Scheme
Parties involved for conclusion of MOU, Agreement and ID
31
Japan
NEDONEDO
Entrusted Company
Memorandum ofUnderstanding
(MOU)
ImplementationDocument (ID)
Ministry in Charge
Implementation
Site Firm
India
Entrustment Instructions for cooperation
(agreement)
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Project name Implementation site Period (FY)
The Model Project for Utilization of Sensible Heatfrom Blast Furnace Hot Stove Waste Gas
Tata Iron and Steel Co.,
Ltd.
(Jharkhand)
2001-2003
The Model Project for Waste Heat Recovery
System of Cement Plant
The India Cements
Limited
(Andhra Pradesh)
2001-2004
The Model Project for Coke Dry QuenchingTata Steel, Ltd.
( Jharkhand )2006-2010
The Model Project for Converting a Diesel
Generator to Dual-Fuel Operation
Tata Motors, Ltd.
(Pune)2008-2010
The Model Project for Sinter Cooler Waste Heat
Recovery RINL Vizag Steel Plant 2009-2011
32
Energy Efficiency Model Projects in India
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Project name Implementation site Period (FY)
The Model Project for Highly Efficient Coal
Preparation Technology
Monnet Ispat & Energy,
Ltd.
(Orissa)
2008-2010
33
Coal Utilization Project in India
Project name Implementation site Period (FY)
Long-term Reliability of Photovoltaic Modules
Solar Energy Center,
MNRE,National Physical
Laboratory
2008-2009
The Study of Stable Power Supply System of
Micro Grid/Smart Grid for the Industrial Parks inIndia
IIT HyderabadNeemrana 2009-2010
Cooperative Research Program in India
Energy efficiency: The Model Project for Utilization of Sensible
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Host Country India
Implementation siteTata Iron and Steel Co., Ltd.
(Jharkhand)
Counterpart
Department of Economic
Affairs/Ministry of Finance,Ministry of Steel
Energy savings effectApprox. 8,110t/yr
(Crude Oil Equivalent)
CO2 reduction volume Approx. 25,090t/yr
34
Waste heat recovered from stove
stacks exhaust gas is used to
preheat the blast furnace gascombusted in the stoves, thereby
reducing the amount of energy
normally required for the hot stove
and blast furnace.
Entrusted Company:
Nippon Steel Engineering
Co., Ltd.
e gy e c e cy e ode ojec o U a o o Se s b e
Heat from Blast Furnace Hot Stove Waste Gas
Project Overview
Project Term
FY2001 FY2003Stack
Circulating pump
Hot Stove
Heat exchanger
Expansion tank
Heat transfer oil
Heat exchanger
Hot air
BlowerCold air
Blast furnace
New equipmentSystem for Utilization of Sensible Heat fromBlast Furnace Hot Stove Waste Gas
Burnerfan
Combustiongas
Air for combustion
Heat transfer oilreservoir tank Supply pump
Energy efficiency: The Model Project for Waste Heat Recovery
S t f C t Pl t
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Host Country India
Implementation siteThe India Cements Limited
(Andhra Pradesh)
Counterpart
Department of EconomicAffairs/Ministry of Finance,
Ministry of Commerce andIndustry
Energy savings effect14,840 t/yr (Crude Oil
Equivalent)
CO2 reduction effect Approx. 45,110 t/yr
35
Waste heat collected in the form of
steam is used to generate electricity
for the plant and thereby improveenergy efficiency.
Entrusted Company:
Kawasaki Heavy Industries Ltd.(Currently Kawasaki Plant Systems,
Ltd.)
System of Cement Plant
FY2001 FY2004
Cement Plant Waste Heat Recovery PowerGeneration Facilities
New equipment
Steam/water flow
Gas flow
Raw materialprocess
Preheating
process
Calciningfurnace
Drum
Clinker cooler
Kiln
Firing processProduct manufacturing
process
Dustcollector Exhaust fan
Stack
PH boiler
HP flasher
Turbine
AQC boiler
CondenserLP
flasher
Generator
Preheater
Project Overview
Project Term
Energy efficiency: The Model Project for Coke Dry Quenchnig
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Host Country India
Implementation siteTata Steel, Ltd.
(Jharkhand)
CounterpartDepartment of Economic
Affairs/Ministry of Finance,
Ministry of Steel
Energy savings effect50,000 t/yr (Crude Oil
Equivalent)
CO2 reduction volume Approx. 137,000 t/yr
36
Hot coke from a coke oven is quenched
in a coke dry quenching system using
nitrogen gas instead of the conventional wetcooling process using water, and waste
heat is recovered and used in the steel
manufacturing process. This reduces
energy consumption, CO2
emissions and
the spread of atmospheric pollutants, such
as coal dust.
Entrusted company: Nippon Steel Corp.
(Now known as Nippon Steel EngineeringCo., Ltd.)
Energy efficiency: The Model Project for Coke Dry Quenchnig
FY2006 FY2009
JamshedpurMumbai
( ))
Chennai( )
( )
Kolkata
CDQ
22
11
JamshedpurMumbai
( ))
Chennai( )
( )
Kolkata
Coke Dry Quenching System (CDQ)
Boiler
BucketRotary seal valve
Sub-economizer
Charging
facility
Gas circulation fan
2Secondary dust catcher
1Primary dust catcher
Cooling
Chamber
Pre-
chamber
Crane
Steam forsteel mill
Conveyer belt
Project Overview
Project Term
Energy efficiency: The Model Project for Converting a
Diesel Generator to Dual-Fuel Operation
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Host Country India
Implementation siteTata Motors, Ltd.
(Pune)
Counterpart
Department of Economic
Affairs/Ministry of Finance,Ministry of Power
Energy savings effect2,246t/yr (Crude Oil
Equivalent)
CO2 reduction volume Approx. 1,361 t/yr
37
Diesel Generator to Dual-Fuel Operation
FY2008 FY2009
A diesel engine used for power
generation is being converted to dual-
fuel use to allow the engine to beoperated with natural gas and a small
amount of diesel oil as pilot fuel.
The technology will allow companies
owning diesel captive power plants in
India to reduce power generation costs
by substituting energy sources. In
addition, environmental benefits will be
obtained by switching from diesel to
cleaner burning natural gas.
Entrusted company: JFE Technos Co.,
Ltd.
DF Tank
PumpDF Injection Pump
Cam
A
Piston
DF
Injector
Govern
New parts to be installed for conversion
Turbocharge
Intake
ValveExhaust
Valve
Fuel Injection Nozzle
Gas Pressure Regulator
Shut-off
Valve
A
Main Controller
(Diesel fuel, Natural
gas)
S
Charged Air
Turbocharger
Air
Air Filter
Cooling
Water
Air Cooler
Exhaust Gas
Valve
Controller
Rev. Pick up
Natural
Gas
Gas Injection Valve
Project Overview
Project Term
MOU Signing Ceremony for The Model Project for Converting a Diesel
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Date: 25th July, 2008
Venue: Hotel New Otani, Tokyo
Signers:K. KOIZAWA, Executive Director,NEDO
Kumar Sanjay KRISHNA, Joint
Secretary, DEA/MOFDevender SINGH, Joint Secretary,MOP
A S PURI
Witness:
Dr. D. SUBBARAO / FinanceSecretary
S. MURATA, Chairman, NEDO
38
MOU Signing Ceremony for The Model Project for Converting a Diesel
Generator to Dual-Fuel Operation
The Model Project for Sinter Cooler Waste Heat Recovery
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Sinter cooler waste gas previouslyemitted into the atmosphere in India
will be captured and routed to a wasteheat recovery boiler. The heat canthen be used to drive a steam turbinegenerator and produce electric power.
39
Host country India
Entrusted company JP Steel Plantech Co.
Implementation site RINL Vizag Steel Plant
Counterparts MOS/MOF
Energy savings effect 38,500 toe/yr
CO2 emission
reduction
117,000 t/yr
The Model Project for Sinter Cooler Waste Heat Recovery
G
Dust
catcherBoiler
Circulati
on
fan
Turbine &
generator
Sinter machine
Sinter cooler
Waste heat recovery
system
Stack Sinter blower Windboxes
Circulation
hood
1.
2.3.
4.
Process Flow
FY2009 FY2011
Project Overview
Project Term
The Model Project for Highly Efficient Coal Preparation
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40
Indian coal tends to be low in sulfur
and phosphor content, but contains
a large amount of ash. The objective
of this project is to contribute to the
resolution of energy and
environmental problems caused by
coal utilization in India through thewidespread dissemination of highlyefficient coal preparation technology.
Host country India
Project siteUtkal B-2 Coal Mine (Orissa, India)
Monnet Ispat & Energy, Ltd.
Counterpart Ministry of FinanceMinistry of Coal
Entrusted
company
Japan Coal Energy Center
Nagata Engineering Co., Ltd.
Technology
Variwave Jig system
Auto Reject Control SystemVariable Wave Pattern
Variwave Jig system
Auto Reject Control SystemVariable Wave PatternFY2008 FY2010
Project Overview
Project Term
Cooperative Research for Long-term Reliability
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Four activities will be conducted in this project:
1. Long-term outdoor PV module exposure test
2. Performance and degradation analysis
3. Acquisition of precise meteorological data
4. Fabrication of degradation resistant PV modules suitable for severely hot
and humid conditions of India.
p g y
of Photovoltaic Modules in India and Japan
41
Equipment
ProjectOverview
ProjectTerm
FY2008 FY2009
Cooperative Research for the Study of Stable Power Supply
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The following activities will be conducted in
this project:
1. Examination of best power supply system
for Indian industrial estates
2. Evaluation to determine best supply and
demand control systems that use micro grid
concept (examination and construction of
algorithm)
3. Examination and design of measurement
and protection multi-device to stabilize
electric power on micro grid (examination,
construction of algorithm, and production of
prototype for trial purposes)
System of Micro Grid/Smart Grid for the Industrial Parks in
India
42
ProjectOverview
ProjectTerm
FY2009 FY2010
Micro Grid/Smart Grid Energy Center
Optimum control of operating units
Centralized control
Co. A Co. B Co. C
Connection of existing DEGs
Regional Energy Efficiency Centers
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Establishment of Regional Energy Efficiency Centre at Dr. Ambedkar
Institute of Productivity, National productivity Council, Chennai has been
proposed in collaboration with NPC and Bureau of Energy Efficiency
The following systems are proposed to be set up by NEDO along with the
training facilities
1. Pumping System2. Fan System
3. Compressed Air System
4. Reheating Furnace
5. Open Burner6. Boiler and Steam System
Regional Energy Efficiency Centers
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Dr. Ambedkar Institute of Productivity, Chennai
F t re Cooperation Delhi M mbai Ind strial Corridor
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Future Cooperation - Delhi Mumbai Industrial CorridorThe Delhi Mumbai Industrial Corridor (DMIC) project is a collaborative effort between Japan and India to develop a major industrial
zone. A freight train line and a thoroughfare between Delhi and Mumbai will be built and infrastructure, including industrial parks,logistics facilities and power plants along the corridor, will be improved as part of this project.
Industrial/social infrastructure
Construction/refurbishment of industrial clusters/parks
Logistics facilities
Construction/expansion of seaports/airports
Housing, commercial/recreation facilities, etc.
With a view to implementing a smart communities model
project using renewable energy technologies like
photovoltaics, feasibility studies at industrial parkslocated along the DMIC are being considered.
Freight train lineNational Route 8
Source: Investment Commission of India
Calcutta
ChennaiBangalore
Delhi
MumbaiV power generationSolar power
Wind power
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