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  -­‐

5

Smart  Community  Concept  Introduc2on  

   

(Nota;Todavia  no  hay  definicion  clara  y  acordado  de  “Smart  Community”)

6

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

7

◆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)  

8

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)  

9

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  

10

-­‐  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  

11

12

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  

14

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

10

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

16

17

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?

18

■  Addressing  energy  and            global  environmental  problems

■  Enhancement  of  Japan's  industrial  compe22veness

19

JSCA    

20

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

21

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

22

Proyectos  Tipicos    

23

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

24

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)

26

※：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

27

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

28

#   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

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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.  

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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  

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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)  

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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

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Inter-­‐EMS  Power  Coordina2on  

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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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