smart communities
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Smart communitiesTRANSCRIPT
Smart Community Si,es fac2ble en la2noamerica
Nobuhiro Tanimura
Voluntario Senior (JICA)
1
Mega-trends Forming the Near-future and the Smart Grid/Community
2
Mega-‐trends Change Business Condi2ons: Popula2on Problems An escala:ng problem of urban concentra:on due to rapid increases
in the world’s popula:on, centering on emerging economies The global population is expected to grow about 1.5 times by 2050, with most growth in the newly emerging economies of Africa and Asia.
-‐ Emerging economies: energy and environmental problems from rapid popula:on influx us to urban areas -‐ Developed Countries: Aging popula:on, need for enhanced welfare, Stuck at high levels of per capita energy consump:on
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 211950
1960
1970
1980
1990
2000
2010
2020
2030
2040
2050
2
4
6
8
estimation
9.15
6.91
3.69
2.53
5.29
8.31
North America
0.70
0.70
Europe 0.70
Oceania 0.05
South America
0.48
Africa 2.00
Asia 5.23
exceeding 7 billion people
As of end of October, 2011
Source: UN, World Population Prospects The 2008 Revision.
Ra:o of Urban Popula:on
Growth of Urban Population
1950 1975 2009 2025 2050 Urban 0,73 1,51 3,42 4,54 6,29
Non-Urban 1,8 2,55 3,41 3,47 2,86
0,73 1,51
3,42 4,54 6,29
0
2
4
6
8
10
billion
1950 1975 2009 2025 2050 Developing 0,3 0,81 2,5 3,52 5,19
Developed 0,43 0,7 0,92 1,01 1,1
0,3 0,81
2,5 3,52
5,19
0 1 2 3 4 5 6 7
billion
3
4
Use of sustainable energy/resources
Developed Countries Emerging Economies
Vital needs support & healthcare *1
Build Secure Informa:on Infrastructure
Economic Globaliza:on
Aging Society with Low Birthrate
Upsurge in Population Urbanization Traffic Jams
Digital Convergence
Water Shortages
Increased Energy Demand
Shortages of Resources Jumps in Resource Prices
Industrial Growth Changes in Diet
Food Scarcity
Expansion of Internet
Community
Expansion of Commodity Markets
Global warming
Life-quality Improvement
Mega Compe::on
“Smart Community” provides solu:ons
Price rise In Medical Care
Medical Care For Aging Increase of
Cyberterrorism
Instant Communication
*1 Vital Needs Support & Healthcare: Services to support vital elements such as water, air, food, and enhanced care for aged popula:on and contribu:on to beZerment of health
Mega-‐Trends Changing the World -‐ Global Issues and Solu2ons -‐
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Smart Community Concept Introduc2on
(Nota;Todavia no hay definicion clara y acordado de “Smart Community”)
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Cloud Service
Smart Meter BEMS PV
Mega PV Smart Grid Battery Storage Heat Accumulation
Community Heat Flexibility
Train Energy Management ITS
Building Home Water
Traffic
Demand Forecast System Water Operation System
BEMS FEMS Smart Elevator
Medical
Clinical Image Application System Medical Network
Electricity Heat
DC Home Appliance
Control
ICT
Car Battery Module
Car Motor, Inverter
Social Infrastructure Op:miza:on and Integra:on with Sensing Technology ×Control Technology × ICT Technology
Vision of Smart Grid/ Community(1/2)
Sensing
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◆Energy Management System
Electricity, Gas, Heat, Water Grid
Control
Make Human Life BeZer
Medical Solu:on
Transporta:on Solu:on
ICT/Security Solu:on Smart Facility Solu:on
Cogeneration Battery PV
Wind Turbine
Heat Pumps
Fuel Cells
Renewables Energy Storage Genera:on
Delivery of Total Energy Solu:on
New Technology Drivers
Water Solu:on
空調BEMS
電源
照明セキュリティ
エレベーター
◆Mobility & Transportation System EV, LRT◆Human Healthcare System Medical Information, State-of-art Medical Technology◆Logistics & Distribution System Market Mall (POS&EMS)
Benefits for Society Benefits for Ci:zens & Consumers Benefits for Operators
Build up incentives & business schemes for Operators and Customers
Exchange of Informa:on
Realization of Sustainable Community through Energy Management
Livable & Comfortable Energy Saving Ecology (Low Emission)
Energy Solu:on
Vision for Smart Community(2/2)
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1. Smart Metering Market -‐ Gateway to Consumers -‐ Energy Data Monitoring
Smart Metering Smart Grid Smart Community
2. Smart Grid Market -‐ Integra:on of AMI & MDMS -‐ BaZery Storage to meet Renewables -‐ Upgrade of Distribu:on Network Management
Expansion of Energy Service
Ø Smart Metering is a Gateway to the Consumers Ø Bilateral Communica:on Interface to Consumers may expand to Smart Community Ø Smart Grid an Energy Management Solu:on will be the first Entrance and to meet the broader concept of Smart Community
Ø Rela:onship with Governments and Public U:lity Companies is the Key
Migra:on from Smart Meters to Smart Community
3. Smart Community Market -‐ Introduc:on of CEMS for Community Energy Management -‐ Introduc:on of Smart Building & Home Appliances -‐ Integra:on of Demand Side Energy Management System with CEMS and AMI(MDMS) -‐ Integra:on of Smart Infrastructure
HEMS
BEMS DA System
PV EV
New Energy Facili2es
Energy Management System
Smart Meter
Gas & Heat (Co-‐genera2on)
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Transmission lines !(Optical fiber cable, PLC, wireless and others)
Wireless!
The system aims for remote metering of individual customers, reducing CO2 emissions by visualizing power consumptions of customers and at leveling loads by guiding customers to low-demand time zones for power consumption from power peak time zone.
Smart Meter Measures instantaneous values including power consumption, voltage, current, frequency and other data and sends values to the meter data management system and home displays.
Meter Data Management System (MDMS)Remote metering of data measured by the smart meter. Real time data collection, management and analysis.
Home Display Displays electric energy used, electric energy sold, CO2 emissions and other data measured by the smart meter.
Smart Metering Market for the 1st Stage
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-‐ Set-‐up Distributed Genera2on (DG) and BaSery Energy Storage System (BESS) at mul2ple loca2ons -‐ Manage Renewable Energy efficiently with Micro-‐EMS powered bi-‐direc2onal ICT communica2on -‐ Minimize Electricity Transmission Loss
Supply (Genera2on)
Demand (Consumer)
Smart Grid (Power System)
Smart Grid Market for the 2nd Stage
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Smart Grid(Red Inteligente)= 1) Interac2ve(Two-‐way) network of “Electricity” and “Informa2on” 2) Real-‐2me adjustments of “Supply-‐Demand”
Different objec2ve, depend on area and/or company For example; 1)Improvement of transmission/distribu2on network reliability (Including Peak-‐Cut purpose) 2)Steady collec2on of electricity charge (by Smart meter) 3)Introduc2on of renewable energy 4)Infrastructure set-‐up for EV (Electric Vehicle) 5)Crea2on of ”New business” using informa2on around electricity (ICT company etc.,)
Micro Energy Management System
City gas plant
Low Carbon Emission Power Plants
Mega Watt PV
Water purification, seawater desalination
Wind Power
Electric Power Network
Distribution Station
Gas Holder
Water Power
Tram
EV
BEMS FEMS
HEMS
Sewage treatment
Optimization of lifeline flows
Collaboration with other
communities
Water Solutions
Energy Solutions
Transport Solutions
ICT, Security Solutions
Medical Solutions
Electricity storage
Containerized Data Center
Data Center Pole Mounted Transformer
Fuel Cells
Greenhouses
LED Lights
Pumping Sta2on
Water Supply
Pressure Regulator Inter-‐Community Lifeline Network
Waste Management
Other Communi2es
Demand/Supply Optimization
Logistics Infrastructure (EV, Tram)
Logistics Infrastructure Efficiency
We, as a ‘Corporate Ci2zen of Planet Earth’, aims to realize a low carbon emission society and reduce environmental load through comprehensive and efficient urban infrastructure while not compromising on comfort. We offer complete urban infrastructure solu2ons ranging from energy, water systems, transporta2on systems, health care to informa2on security as a packaged solu2on with bi-‐direc2onal communica2on for op2mum management and efficiency.
Smart Community Market for the 3rd Stage
Smart community Proyectos
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Trend of the smart community project in the world More than 500 PJ plan in the world by extension of energy, mobility, etc.
* Source : Nikkei BP clean tech research institute. Toshiba presumes from a material for investigation.
North America:116 PJ • Expansion of Smart Grid PJ • Expansion of service of DR,
Government, EV related mobility, etc
Asia, etc.:53 PJ • City and industrial complex
infrastructure development • Energy stable supplies
(industrial complex etc.)
Japan:94 PJ • disaster reconstruction • Renewable energy expansion
• Energy Visualization, Expansion of service of EV, Health care
China:165 PJ • City and industrial complex infrastructure development • Next-generation traffic system introduction
Europe:87 PJ • Smart Grid、Renewable Energy、Promotion of the existing infrastructure redevelopment
• Expansion of service of DR, EV related mobility, etc.
【2012年時点】
277 238
70 46 84
38 127
54 33
31 22
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Service introduction PJ
Infrastructure development PJ
• The size and number of a circle show the number of PJ.
Energy relation Mobility relation Administrative-services relation Health care relation Others
(2011年時点調査)
162 238
DR:Demand Response
PJ plan in the world
515 400
Market on 2015:About 8 trillion
40%
34% 9% 8% 9%
Research at 2011
Research at 2012 15
Globally over 33 Projects
【Project Type】
:Smart grid type (incl. renewable energy) :Smart Community (Re-development) :Smart Community (New Development)
UK(2)
France(1)
Italy(2)
China(6)
Thailand(1)
Viet Nam(2) Malaysia(1)
India(2)
Japan(12) USA(2)
LYON PJ
NEW MEXICO PJ YOKOHAMA PJ
ISHINOMAKI PJ
Central-‐Eastern Europe (2)
( ):Number of Projects
Toshiba Leadership in Smart Community Projects
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NEDO´s “Smart Community” Projects (outside of Japan) 1) Malaga, Spain 2) Lyon, France 3) New Mexico, U.S.A. 4) Hawaii, U.S.A. 5) Jawa, Indonesia 6) Putrajaya and Cyberjaya, Malaysia 7) Gongqingcheng, China
Who and What is NEDO?
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■ Addressing energy and global environmental problems
■ Enhancement of Japan's industrial compe22veness
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JSCA
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JSCA (Smart Community Alliance) JSCA was established for contribution to globalization and domestic spread of smart community which are next-generation energy infrastructures
Membership:408 companies, organizations, etc. as of February 8, 2013
President: TOSHIBA
Board: Hitachi, ITOCHU, JGC, Kansai Electric Power, MITSUBISHI ERECTRIC, Panasonic, Tokyo Gas, TOYOTA
Steering Committee
International Standardization WG
Roadmap WG
Smart house & Building WG
Brazil SWG
England SWG
German SWG
India SWG
Indonesia SWG
Thai SWG
Myanmar SWG
Malaysia SWG
International Strategy WG
Singapore SWG
Vietnam SWG
China SWG Secretariat: NEDO New Energy and Industrial Technology Development Organization
Competent minister: Minister of METI
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Working on the Smart Community by JSCA u JSCA is working among the entire economic community overcoming the industry barrier. u The activity is promoting global deployment by the Japan initiative.
Ø Formation of a solution package for every area Ø Government-and-people missions dispatch towards infrastructure export Ø Separate negotiations by the sub team classified by country
Globalize :Specification of area, country, project. Market development
Ø Propose international-standards creation of a "smart city infrastructure evaluation index" to ISO. (February, 2012: approved、June, 2012: Start the activity in the ISO committee.) Ø Promotion response to the international standardization of important 5 fields (Storage battery, EMS, Electrical power grid management, Next-generation car, Communication I/F)
International standardization activity
Ø “A smart house building standard and a business promotion investigative commission“ are installed. Supported by Ministry of Economy, Trade and Industry.
(June, 2012)
Commercializing promotion
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Proyectos Tipicos
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CEMS:Community Energy Management System SCADA:Supervisory Control And Data Acquisi:on
Community Energy Management Demonstra2on Project (Started in Oct 2012)
Storage SCADA
Storage SCADA (Toshiba)
Charging Sta:on (JX Nippon Oil & Energy)
Charging-‐Discharging EV (Nissan, Hitachi, Orix, Orix Auto)
GDC (Nissan) Clustered BEMS
(Toshiba)
CEMS (Toshiba, Accenture)
Smart FEMS (Meidensya, Sumitomo Electric)
Demand Supply Balancing BaZery Storage (Toshiba, Hitachi, Meidensha, NEC)
HEMS (Panasonic)
HEMS (Mitsui Fudosan Residen:al, Toshiba)
Smart Condominium* (JX Nippon Oil & Energy, Mitsui Fudosan Residen:al,Toshiba)
Smart Condominium* (MEMS) (DAIKYO ASTAGE )
Smart BEMS (Meidensya,NEC)
Smart BEMS (Toshiba, Taisei)
Smart BEMS (Toshiba, Taisei)
Office Building BEMS (Toshiba, Marubeni, Mitsubishi Estate,Mitsui Fudosan)
Apartment HEMS (Tokyo Gas, NTT-‐F, NTT Docomo)
Commercial Facility BEMS (JGC)
HEMS Started operation from visualization service
BEMS Connected to Cluster BEMS
CEMS Connected to BEMS/HEMS/Storage SCADA with standard interface(Open ADR)
# DR with large number of consumers # Power Network stabiliza2on by BaSery Storage EMS
Construct Community Energy Management aiming to cut CO2 emission by 25%※1
Target Scale
HEMS (4,000 units)
BEMS (800,000m2)※2
EV (2,000 cars) ※1:Yokohama-‐City Comparison with 1990, target to achieve in 2020 ※2:200 acres
YOKOHAMA Smart City Project (YSCP) ①
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Energy saving/storage technologies and DR for building Clustered control
※:in comparison with before introduc:on of system (target)
# Cost reduc:on by controlling energy genera:on/storage equipments
TAISEI Corp. Tech. Center Smart Battery
+5% by DR for building Clustered control※
Peak cut +20% by electricity/heat parallel control which corresponds to DR※
# Apply the balanced remaining power distribu:on algorism for Clustered buildings first :me
YOKOHAMA Smart City Project (YSCP) ②
Apartment
Single houses
HEMS
DR request
DR distribu2on
Energy saving control DR control
Energy use informa2on
Available capacity es2ma2on
Smart BEMS
Smart BEMS + batteries
BEMS ―
Existing BEMS
Internet
CEMS
Clustered BEMS
Capacity:- Capacity:◎ Capacity:△ Capacity:○
Capaci2es of tenant
DR:― DR:△ DR:○ DR:◎
Building facili2es/ equipments
Internet
Peak cut up to 3MW in clustered buildings 25
Realization of 22% of peak cut was checked as a DR actual test result.
YOKOHAMA Smart City Project (YSCP) ③
CEMS Clustered BEMS
Minatomirai Grand Central Tower Yokohama Landmark Tower Yokohama Mitsui Building Yokohama World Porters Itoyokado Yokohama Bessho Taisei Corp. Technology Center
① DR Request energy saving
② DR allocation set up
③ Electricity saving Energy saving
DR issued Time zone
Using energy <Flow chart of Demand Response> 1. DR issue from CEMS to Clustered BEMS 2. Clustered BEMS distributes the amount of DR requests to each building according to the power-saving capability of each building. 3. Each building cooperates and performs power saving and energy saving according to DR.
DR request Supply plan
Clustered BEMS Demand forecasting
Possible power margin
Allocation set up
Execute DR control
Equipments Energy Information
Capacities of Tenant DR: Zero
Small DR:
Mid DR: DR: Large
Peak cut for 22% was realized (actual data)
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※:in comparison with before introduc:on of system (target)
Local energy stabilization by efficient energy saving at home and large scale civic participation (under tes2ng upto Sep/27 2013)
# Prepare PV, baSery, heat storage and EV joint opera2on for peak shiq and blackout
・Verifica2on test started at “Park Homes Okurayama” coopera2on with Mitsui Fudosan Residen2al Co. Ltd.
(YSCP)HEMS
Park Homes Okurayama
Introduce automa2c DR HEMS Verification test of automatic household appliance control by DR data first time
Reduce 12% of COs emission by visualiza2on(10%) and DR response (10%) Verification test with 4,000 houses
YOKOHAMA Smart City Project (YSCP) ④
CO2 10% reduc2on in whole apartment
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Smart Grid verifica2on test in renewable energy leading area started
Verification test with Smart Meters and HEMS Battery, Heat Storage and load control by DR
PV (1MW) NaS storage (1MW)
μEMS
# Self-‐sufficient Opera2on
• PV (100kW), Fuel Cell, Energy Storage etc. • Suppress PV fluctua2ons by BEMS -‐ μEMS coopera2on.
Smart Building (Mesa Del Sol)
• Introduce 20-‐50% PV energy to distribu2on system
• Power genera2on & storage plan/control comb. with DR
Albuquerque: Smart Building (Opera:on started in May ‘12)
Los Alamos : Smart Grid (Opera:on started in Sep. 2012)
Stabilizing grid by controlling both of supply side and demand side with μEMS
太陽光発電
蓄熱機器
スマートメータ
スマート家電
パワーユニット
蓄電池
エアコン
HEMS
Smart Meter
Air Conditioner
HEMS
PV Power Unit
Battery
Heat Stprage
Smart Houshold Appliances
Japan-‐US Smart Grid Collabora:ve PJ in NM
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# Smart Life with EV ・Dissolve traffic conges2on / parking space problem by car sharing ・Reduce 12% of COs emission by charging control system which works together with PV es2ma2on system
Achieve targets 5 years ahead of the EU’s 20-‐20-‐20 Plan
・BEMS with image sensor
Detect human small movement Contol air conditining, lighting, PC.
# Visualization of community’s energy consumption. (home, building, transportation)
# PEB※ by 25% energy saving and renewable energy generation
・HEMS with behavior predic2on
Assume life scene by human sensing data
Classify into 27 paSerns and control household appliances to be his taste
Lyon Confluence redevelopment area :150ha
※ PEB:Posi:ve Energy Building
Lyon Confluence Smart Community Project
A target agreed among EU countries to reduce greenhouse gases by 20%, improve energy efficiency by 20%,and achieve renewable energy use of 20% by 2020, against 1990.
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Outline of the Project In order to facilitate the increasing introduc:on of renewable energy resources quan:ta:vely and efficiently, we need: (1) Integra:on of exis:ng conven:onal genera:on and renewable energy resources (2) Op:mal opera:on of renewable energy genera:on to meet the electricity demand of consumers (3) Electricity consump:on shiw by consumers to meet the state of renewable energy genera:on To implement this pilot project, op:mal control of energy use for the whole island is required.
Objectives of the demonstration
• Optimal use of renewable energy resources and realize the application of renewable energy resources.
• Realization of energy saving/service model research through visualization of energy consumption
• Business model development for energy management of demand and supply
Objectives:Local Production for Local Consumption (LPLC) of renewable energy and business model construction
Miyakojima City EMS Pilot Project for the En6re Island (1/2)
Basic construc2on of the EMS
*EMS: Energy Management System
Charge sta:on hotel
BEMS BEMS
Smart box
Office building
Residen:al
Thermal power sta:on
Wind power
Storage baZery
Whole islands EMS
EMS
Agriculture water pump
EV
Construc2on of whole islands EMS
EV taxi
LPLC of Renewable Energy Construc:on Business Model Mega solar
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Isolated Island Micro Grid in Miyakojima(2/2) Objec:ves of the Project
– To u2lize PV and Wind power and baSery – To evaluate the influence and validate the stabiliza2on methods of PV and
Wind power and baSery Brief Summary Operation: 15th October 2010 PV 4MW WP 2.4MW Battery 4MW Thermal 76.5MW
SOURCE: Press Release by The Okinawa Electric Power Company (released October 15, 2010)
Existing WT 600kW 900kW Karimata area
Miyako Gas Turbine Station 15,000kW
Miyako No.2 Generator Station 40,000kW
Control System (Micro EMS)
塔 塔
Remote Control
Miyako Generator Station 21,500kW
Remote Control
Demonstration Site
Existing WT 900kW Fukusato area
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Poblacion;51,000 p Superficie;160 km2
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a)Super-‐Charge Ion BaSery (SCiB™) 20 Amp Hour Cell Total;100KW
b)Sodium-‐Sulfur (NaS) baSeries Total;4,000KW
a)redox flow baSery (redox=reduc2on-‐oxida2on reac2on)
BaSery 1)Miyakojima Project
2)Technology developement
b)Combina2on with conven2onal type baSery(Lead-‐Plomo) ⇒Hybrid BaSery System
Realize a city strong against a disaster by CEMS/HEMS/BEMS
Deploy the Community Energy Management System verified in YSCP
Normal Condi2on Low Carbon Eco-‐Town ・20-30% CO2 Reduction by Disaster Prevention BEMS & HEMS
・Add life assistance function such as health care to HEMS
■Shin-Hebita
■Shin-Tobani/Kitagami /Central City area
In Emergency Uninterrupted Lighting & Info. Network Large Scale PV (5MW) + Battery Storage (1.2MWh) + Grid Stabilization
Local production can cover 50% of local consumption
Restored Housings
Disaster Prevention Facilities
Public Housing
Reconstruc:on Project <ISHINOMAKI PJ >
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Comsumo de Electricidad (Japon) Data;Year 2008
Consumo Indutria Transport. Servicio Residencia
(TWh) (Edicifio)
964 32% 2% 36% 30%
Energy Saving LawYear1979 For Factory2009 For Large Building & Residencial2010 Rev. for Factory
Increm ento de C onsum o(Electricidad)(unit;%) 1973 1998 (25 anos)Resid./Edif. 100 217Transport. 100 274Industria 100 106
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Consumo de Energia Eléctrica en la Casa (Japón)
Cooperacion entre Japon y La:noamerica
(Para Realizar Proyectos de Smart Community)
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Discussion to Realize Smart Community <Acknowledge of Current Condi:ons> • Clarify problems and challenges to the Society • Confirm Government Policy Objec:ves • Ensure Consistency to the City Planning Programs
<Iden2fy> • Define Goals for Quality and Innova2on Levels of the Society
• Selec2on of latest Technology Solu2ons of Smart Grid & Community
Build Basic Concept for Smart Community
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Turn to global deployment of Smart Community Business
l Maintenance of personnel training system l PR strengthening to the partner country government and a public institution. l Acceleration of formation of a local fit. l Promotion of standardization
l Loan expansion to long-term PJ l Loan expansion to OUT-OUT business l Financing system maintenance to the advanced nations PJ
l Correspondence to the finance scheme to diversify l Support for a bridge finance l Application at accidental force risk
Global deployment acceleration by cooperation with the Government, JICA, NEDO, JBIC, NEXI, etc.
Technical Cooperation
Insurance Guarantee
Financing
38
Criterios de selección para aplicar el enfoque de la Inicia6va Ciudades Emergentes y Sostenibles, y ciudades que ya lo están empleando
1. Población de entre 100.000 y 2.500.000 habitantes, la cual es una función de la población total del país
2. Disponibilidad de información que permita la obtención de datos y la posterior aplicación del análisis de los indicadores-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐-‐
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3. Existencia de un marco de planeación (por ejemplo, planes urbanís:cos y ambientales, estructura gubernamental suficientemente sólida, etc.), -‐-‐-‐-‐-‐-‐-‐-‐-‐
4. Fuerte liderazgo de la oficina del alcalde de la ciudad y/o de las autoridades especializadas en temas urbanos/ambientales, de forma que se garan:ce la plena par:cipación y apoyo durante el periodo de ejecución.
40
Govierno de Japon; Plan “Future City Ini2a2ve” BID; Plan “Inicia2va de Ciudades Emergentes y Sostenibles” (ICES)
JICA; ar:culación entre ambas inicia:vas Por ejemplo; -‐Invitación a representantes de ciudades par:cipantes de la ICES al Seminario sobre “Future City Ini:a:ve” en Japon (Oct/2013) -‐Asistencia técnica a proyectos incluidos en el Plan de Accion de la ICES
Oficinas de JICA en
La:noamérica
Muchas gracias
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Anexo
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LOUVRE MUSEUM PLACE :Musée du Louvre, 75058 Paris
YEAR : 2011
“Innova2on of form” that is both aesthe2c and durable
Case study of LOUVERE Museum
44
Water Leakage Detector
Sensor
A Water Leakage Detector detects leakage of water from water pipe by sensing noise of water leakage. This sensor can be applied for both distribution pipes and service pipes.
time
sound
signal transform
leakage judge
display results
Water Leakage Detector
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Home Energy Management Systems(HEMS)
46
Building Solu6ons (BEMS)
Control Air Condi:oning System to keep Comfort Index (PMV Index) constant level. Achieve the balance of energy saving and comfortable.
Neuro PMV Control (Reduce Waste Energy)
Model Based Control
High efficiency heat source and air condi2oning
Low Energy Consump2on Elevator
LED Ligh2ng
PV power genera2on
Power Generator
BaSery High efficiency UPS
BEMS
BCP (Business Con2nuous Plan)
Considering importance for the Guests in the case of disaster, provide energy source for their safety.
Remote Management (For Small size buildings)
Remote Management Service provides facility controls and management services outside the Buildings from command center.
Make a model of the hotel to realize the minimum energy consump:on/usage for Air Condi:oning systems.
Product and Store Energy Keep energy balance of the produc:on (PV system) and storage (baZeries). Realize peak cut or peak shiw contribu:ng reduc:on of CO2.
Smart BaSery To combinate some types of baZeries like SCiB, Ni, Pb etc, keep balance of life :me and costs with smart control.
Peak Shiq Control By es:ma:ng the usage of energy, make a schedule for the peak shiw control for baZeries and heat storage.
Case of TOSHIBA build. →energy saving:6.2%
(US$300,000 /year) By Installed Neuro PMV
47
Inter-‐EMS Power Coordina2on
48
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SCiB™ 2P12S Module Specifications
Nominal Voltage 27.6 V (18 to 32.4 V)
Nominal Capacity 40 Ah (0.2 C)
Size 187 W x 359 D x 123 H (mm)
Weight Approximately 14 kg
Functions Voltage/Temperature Sensor, CAN Communication to BMU
SCiB™ 20 Ah Cell Specifications
Nominal Voltage 2.3 V (1.5 to 2.7 V)
Nominal Capacity 20 Ah (0.2 C)
Energy Density 177 Wh/L
Size 115 W x 22 D x 103 H (mm) Excluding Terminals
Weight Approximately 510 g
NEDO´s “Smart Community” Projects(1/2) (Dissemina:ng Japanese Technology through Overseas Demonstra:on Projects) 1)Malaga, Spain This demonstra:on project is being conducted in coordina:on with the Smart City Malaga project. It focuses on infrastructure construc:on and includes an EV system designed to accommodate a large increase in the number of EVs, in addi:on to informa:on systems and charging sta:ons and their placement.
2)Jawa, Indonesia A demonstra:on of technologies rela:ng to Japanese Smart Communi:es is being conducted on the island of Java, which is experiencing increased power demand. It focuses primarily on power quality stabiliza:on at industrial parks. Industrial park where demonstra:on will be conducted Industrial park where development is progressing.
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3)Malaysia Putrajaya and Cyberjaya Japan and Malaysia have jointly established a specific Ac:on Plan with the goal of crea:ng a Low Carbon City /Smart Community vision for these two ci:es in Malaysia. 4)Hawaii, U.S.A. This demonstra:on project features a system for managing EV charging, etc. to enable the u:liza:on of as much energy as possible from PV and wind power genera:on. It is based on Japan -‐ U. S. coopera:on on clean energy technology. 5)New Mexico, U.S.A. This project will demonstrate an advanced smart grid and smart house capable of absorbing the output fluctua:ons produced when large quan::es of generated PV power are introduced. The demonstra:on is being conducted in coopera:on with the government of New Mexico, the Los Alamos Na:onal Laboratory and local power companies and other local en::es, based on Japan -‐ U. S. coopera:on on clean energy technology. 6)Lyon, France This project will demonstrate an EV sharing system that u:lizes the energy from a newly constructed building that is “energy posi:ve” (genera:ng more energy than it consumes), as well as the energy generated from PV panels.
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