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2010 스마트 그리드 유진오
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2010 스마트 그리드 유진오

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2010 스마트 그리드 유진오 2010 스마트 그리드 유진오 Presentation Transcript

  • 스마트 그리드
    1. Smart Grid
    2. Smart Power Grid
    3. Smart Renewable
    4. Smart Transportation
    5. Smart Place
    6. Smart Electricity Service
    출처 : ETRI, MKE, NSRI, KEPCO, 지식경제부
    유진오
    서울대학교, 고려대학교,한양대학교,SAP,LS
    KT,KCA, KERI,SAP,SK,IBM
  • 1. Smart Grid
    1-1. Smart Grid Definition
  • 1. Smart Grid
    1-1. Smart Grid Definition
    ◆ 스마트 그리드 구성 요소
  • 1. Smart Grid
    1-1. Smart Grid Definition
    ◆ 스마트 그리드 구성 요소(구분)
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 전력 산업의 원조
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 전력 시스템의 기본 구조
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 석유 의존
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 전력시스템의 발전
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 전기 사용량 증가에 따른 시설비 증가
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 기존 전력망의 한계
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 온실가스 배출량 증가 - 환경오염
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 신재생 에너지 보급 현황
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 신재생에너지의 특성
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 신재생에너지의 특성 – 풍력발전 예시
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 에너지 기후 변화 정책
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 녹색에너지 보급정책 확대
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 외부국가 동향
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 외부국가 동향
  • 1. Smart Grid
    1-2. Smart Grid Background
    ◆ 산업,무역 정책
  • 1. Smart Grid
    1-3. Smart Grid Purpose
  • 1. Smart Grid
    1-3. Smart Grid Purpose
  • 1. Smart Grid
    1-3. Smart Grid Purpose
    ◆ 세부사항
  • 1. Smart Grid
    1-4. Smart Grid Concept
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 에너지 사용의 효율적 분배 및 안정도 증가
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 전력망과IT망의 융합
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 전력소비의 밀집도 조절 – 균형잡힌 전력 사용
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 사용 목적에 맞는 전력 선택
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 전기 공급 및 사용의 능동 제어
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트 그리드의 구성 요소
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트 그리드 진행의 주체 및 역할
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트 그리드로드맵(1/2)
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트 그리드로드맵(2/2)
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트 그리드 구성안
  • 1. Smart Grid
    1-4. Smart Grid Concept
    ◆ 스마트그리드를 이용한 지역 특색
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 증가하는 사이버 공격
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 증가하는 사이버 공격
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 증가하는 사이버 공격 – 스마트 미터
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 실제 사례
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 취약부분 및 분석
  • 1. Smart Grid
    1-5. Technology based on security
    ◆ 사이버 공격 후 발생하는 시나리오
  • 1. Smart Grid
    1-6. Future
  • 2. Smart Power Grid
    2-1. Smart Power Grid Concept
    ◆ Utility Industry
  • 2. Smart Power Grid
    2-1. Smart Power Grid Concept
    ◆ Data Networks and Communications
  • 2. Smart Power Grid
    2-1. Smart Power Grid Concept
    ◆ AMI 기능 : AMI enables new business models
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 핵심 기술 및 이슈
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 핵심 기술 및 이슈
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 한국전력의 목표
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 한국전력의 발전
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 한국전력의 설비 - 송전
  • 2. Smart Power Grid
    2-2. Smart Power Grid Background
    ◆ 한국전력의 발전 - 배전
  • 2. Smart Power Gird
    2-3. Demand Response
    ◆ DR(Demand Response)의 필요성
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 프로그램 융합
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 상태 구성
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR 상태 (분야별:2009)
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 시스템 구성
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 프로그램 구성 [1/2]
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 프로그램 구성 [2/2]
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 자원 분석
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 자원 분석 솔루션 [1/2]
  • 2. Smart Power Grid
    2-3. Demand Response
    ◆ DR(Demand Response) 자원 분석 솔루션 [2/2]
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ 모니터링 인터페이스 : 인터넷 기반
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI Reference Architecture
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ 한국전력 – Power Consumption Consulting System
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ 한국전력 – Power Consumption Consulting System
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMR – Automatic Meter Reading
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMR – Diagram
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ 다중통신 : Measure – Bill – Collect Data Warehouse
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI 특성
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI System - 구성
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI System - 예시
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI System - 실제 구현 방법
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI = AMI is part of the ‘Intelligent Network’
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI 범위
  • 2. Smart Power Grid
    2-4. Monitoring
    ◆ AMI 구성 요소 : (ex)가정
  • 2. Smart Power Grid
    2-5. Future
    ◆ Smart Grid is a Journey
  • 3. Smart Renewable
    3-1. Smart Renewable Concept
    ◆ Energy Industry
  • 3. Smart Renewable
    3-2. Smart Renewable Background
    ◆ 신재생 에너지 현황
  • 3. Smart Renewable
    3-2. Smart Renewable Background
    ◆ 컨버터를 이용한 연결 방법
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ 기존 전력망 형태
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ 기존 전력망 개선 - 마이크로 그리드(Micro-Grid)
    - 에너지원과 저장장치, 부하의 클러스터링
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆마이크로 그리드 개념
    - DG sources, storage, load
    - EPS as Single Entity
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ Distributed Generation Convertion Techno
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ Traditional AC distribution as Microgrid
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ Hybrid Microgrd : Combine AC & DC
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆전력 변환기
    - Power Converters are need to facilitate the interconnection
  • 3. Smart Renewable
    3-3. Micro Grid
    ◆ Distributed Energy Resource Network System
  • 4. Smart Transportation
    4-1. Smart Transportation Concept
    ◆ Automative
  • 4. Smart Transportation
    4-1. Smart Transportation Concept
    ◆ Eco-Friendly Automobiles
  • 4. Smart Transportation
    4-1. Smart Transportation Concept
    ◆ Smart Transportation의 구성
  • 4. Smart Transportation
    4-2. Smart Transportation Background
    ◆ 핵심 기술 및 이슈
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 기존 차량 Vs EV
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 자동차 구조
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 구성방식
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ HEV 와 FCV 구동방식 비교
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 전기차 비교
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 충전 방식
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 충전 방식 – Slow charge
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 충전 방식 – Quick charge
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 충전 방식 – Quick charge [ DC vs AC ]
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 충전 방식 – Quick charge [ DC vs AC ]
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 동작 상태 구분 – Driving mode
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 동작 상태 구분 – Charging mode
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ EV Charging System (H/W)
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ Charging stand (AVCON)
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ Current Customer Locations (Minit-Charger)
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 전기 충전 형태 예시
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전시스템 : Charging Infrastructure in 2015, 영국
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전시스템 : 뉴욕
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전시스템 : 독일
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전시스템 : 일본
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전 컨트롤러 : 예시
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전 인터페이스 : Vehicle Coupler – NP IEC 62196-2
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전 인터페이스 : Vehicle Coupler – NP IEC 62196-2
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 충전 인터페이스 : 63 A single phase, 3.8mm pins
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 요구사항
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 이슈
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 종류 - 납축전지
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 종류 – 니켈 카드뮴(니카드) 전지
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 종류 – 리튬 이온 전지
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 특성 비교
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 전기차의 배터리 시스템 구성
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 배터리 시스템 : HEV Application
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 제어 알고리즘 요구사항
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 기능 – 리튬 이온 배터리 팩
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 제어 다이어그램
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 전원 제어 흐름도
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 기술 - 하드웨어
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 기술 – 셀 모니터링 IC
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ BMS 기술 – 셀 모니터링 IC 구조
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ DC-DC 컨버터의 동작 방식
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 전기 자동차 구성 – 정보 관리
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 아시아의 전기차
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 미국의 전기차
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 독일의 전기차
  • 4. Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 프랑스의 전기차
  • 4 Smart Transportation
    4-3. EV(Electric Vehicle)
    ◆ 참여 기업
  • 4. Smart Transportation
    4-4. EV(Electric Vehicle)
    ◆ Future
  • 4. Smart Transportation
    4-4. EV(Electric Vehicle)
    ◆ Future
  • 4. Smart Transportation
    4-5. EV(Electric Vehicle)
    ◆ Future - PHEV 사용 인프라
  • 5. Smart Place
    5-1. Smart Place Concept
    ◆ Heavy Electrical Industry
  • 5. Smart Place
    5-1. Smart Place Concept
    ◆ Construction Industry
  • 5. Smart Place
    5-1. Smart Place Concept
    ◆ Home Electronics Industry
  • 5. Smart Place
    5-1. Smart Place Concept
    ◆ Smart Place Business Models
  • 5. Smart Place
    5-2.Smart Place Background
    ◆ 핵심 기술 및 이슈
  • 5. Smart Place
    5-3. SmartMeter
    ◆ 스마트 미터 종류
  • 5. Smart Place
    5-3. Smart Meter
    ◆ 특징 : MRM(Meter Reporting Messages)
  • 5. Smart Place
    5-3. Smart Meter
    ◆ 특징 : MCM(Meter Command Messages)
  • 5. Smart Place
    5-3. Smart Meter
    ◆ 특징 : BCM(Broadcast Command Messages)
  • 5. Smart Place
    5-3. Smart Meter
    ◆ 특징 : In-field Meter Initial Keying
  • 5. Smart Place
    5-3. Smart Meter
    ◆ 스마트 미터의 조건 : 강인한 컴퓨팅 능력
  • 5. Smart Place
    5-3. Smart Meter
    ◆ Smart Meter 예
  • 5. Smart Place
    5-4. Smart Home
    ◆ Smart Place 의 중요성
    Complete end – to – end Smart Grid for the Energy Prosumers
  • 5. Smart Place
    5-4. Smart Home
    ◆ 특징 : Home Energy Monitoring
  • 5. Smart Place
    5-4. Smart Home
    ◆ 특징 : 프로슈머 기능 – 네트워크 아키텍쳐
  • 5. Smart Place
    5-4. Smart Home
    ◆ 통신 방식 : HAN(Home Area Network)
  • 5. Smart Place
    5-4. Smart Home
    ◆ 특징 : 프로슈머 사용 채널 - 통신방식
  • 5. Smart Place
    5-4. Smart Home
    ◆ 지그비를 사용한 방식
  • 5. Smart Place
    5-4. Smart Home
    ◆ 사용 채널 : 무선 통신 방식
  • 5. Smart Place
    5-4. Smart Home
    ◆ 사용 채널 : IEEE 802.15
  • 5. Smart Place
    5-4. Smart Home
    ◆ 사용 채널 : WPAN 방식 비교
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ IT/Communication Industry
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ Smart Energy Saving(S-ES) BM
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ Smart Power Trading/Selling(S-PTS) BM
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ Smart ICT Convergence(S-IC) BM
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ Smart City(S-City) BM
  • 6. Smart Electricity Service
    6-1. Smart Electricity Service Concept
    ◆ KT SG Center
  • 6. Smart Electricity Service
    6-2. Smart Electricity Service Background
    ◆ 핵심 기술 및 이슈
  • 6. Smart Electricity Service
    6-2. Smart Electricity Service Background
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ K-DR 시스템 구성
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ K-DR 시스템 구성 계획
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ 수요 관리 이득
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ 고객 관점의 이익
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Metering 의 주요 효과
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Metering : Smart metering will enable Smart Grid
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Metering : Smart metering will enable Smart Grid
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Metering : Smart metering will enable Smart Grid
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Metering : Smart metering will enable Smart Grid
  • 6. Smart Electricity Service
    6-3. Smart Grid : Virtual Power Plant
    ◆ Smart Grid = sense, communicate, compute, control
  • 6. Smart Electricity Service
    6-4. Energy Market
    ◆ 에너지 마켓 구성도
  • 6. Smart Electricity Service
    6-4. Energy Market
    ◆ 에너지 마켓 - 연결관계
  • 6. Smart Electricity Service
    6-4. Energy Market
    ◆ 에너지마켓 기본 인프라
  • 6. Smart Electricity Service
    6-4. Energy Market
    ◆ 에너지마켓 구성
  • 6. Smart Electricity Service
    6-4. Energy Market
    ◆ 에너지 마켓 - 구매자 관점
  • 6. Smart Electricity Service
    6-5. Future