表紙
市場調查報告書

網格增強和災難恢復技術

Grid Hardening and Disaster Recovery Technologies

出版商 Guidehouse Insights (formerly Navigant Research) 商品編碼 967895
出版日期 內容資訊 英文 11 Pages
訂單完成後即時交付
價格
網格增強和災難恢復技術 Grid Hardening and Disaster Recovery Technologies
出版日期: 2020年10月22日內容資訊: 英文 11 Pages
簡介

與自然災害,煙花爆竹和其他事件相關的停電事件不斷增加,加劇了放鬆管制的威脅,以及將分散式能源整合到傳統公用事業業務模型中的威脅。為了應對這一問題並最大化電網性能和可靠性,公用事業需要從戰略上投資於自動化,控制,可視性和彈性技術。

根據保險情報研究所的數據,從1989年到2018年,全球災難性自然災害事件的平均數量為每年520起。此統計信息包括地球物理,氣象,水文和氣候事件,包括地震,風暴,洪水,山火等。 2018年有850起此類事件,2019年有820起。自2010年以來,除了自然災害的發生率不斷增加外,這些事件的嚴重程度和破壞程度也急劇上升。根據美國國家海洋與大氣管理局的數據,美國在1980年至2020年期間平均遭受6.5次重大災難,損失超過10億美元。但是,從2017年到2019年,災難損失每年增加到147億美元。

本報告確定並描述了用於電力傳輸和配電(T&D)網絡上部署的關鍵電網增強和彈性技術,八種主要的災難響應和彈性技術以及公用事業解決方案提供商。我們提供了四個主要建議。

目錄

簡介

背景

建議

自然災害更頻繁,更嚴重,更具破壞性

  • 預測/準備/保護
  • 抵抗與緩解
  • 響應與恢復

網格增強和彈性技術可改善停機預防和恢復能力

  • 輸配電自動化可增強控制能力和可視性
  • 集中式和分佈式自動控制方案的組合,可實現最佳控制
  • FLIS R實現出色的響應時間
  • 遠程監控可在風暴和其他中斷事件發生期間和之後保持網格可見性
  • 智能計量提供了詳細的超本地數據點,用於停止檢測和定位
  • 物理增強保護電網資產免受災難破壞
  • 天氣預報和預報平台為公用事業提供重要情報
  • 勞動管理和應急計劃軟件可簡化薪酬工作

當前和未來需要對戰略進行戰略性和有效的投資

  • 展望未來並做好準備
  • 靈活性使解決方案平衡
  • 合作創造創新
  • 重新評估對於確保未來潛力很重要
目錄
Product Code: SI-GHDR-20

The global electric grid is transforming from a unidimensional system of power producers and consumers into a multidimensional, cloud-enabled network. It has two-way flows of power and information. As such, it is more critical than ever for utilities and solutions providers to prioritize grid hardening and resiliency technologies. The frequency and scale of natural disasters increases year over year, and outages are simultaneously becoming less tolerable and more expensive to utility customers. Increasing outages linked to natural disasters, wildfires, and other events is adding to the threat of deregulation and distributed energy resources integration into the traditional utility business model. To combat this and maximize grid performance and reliability, utilities must strategically invest in automation, control, visibility, and resiliency technologies.

From 1989 to 2018, the global average number of natural catastrophic events was 520 events per year according to the Insurance Information Institute. This statistic includes geophysical, meteorological, hydrological, and climatological events, encompassing earthquakes, storms, floods, wildfires, and others. In 2019, the planet witnessed 820 such events after experiencing 850 events in 2018. In addition to the increased frequency of natural catastrophes, the intensity and cost of these events has risen sharply since 2010. From 1980 to 2020, the US averaged 6.5 costly disasters incurring damages of $1 billion or more according to the National Oceanic and Atmospheric Administration. From 2017 to 2019, however, this number spiked to $14.7 billion worth of damages from disasters each year.

This Guidehouse Insights report identifies and discusses the key grid hardening and resiliency technologies for deployment on transmission and distribution (T&D) networks. Utilities must think ahead, be flexible, accept help, and constantly reevaluate options to ensure the operation of a hardened and resilient grid. The report includes the identification and discussion of eight key technologies for storm response and resiliency and provides four key recommendations for utilities and solutions providers.

KEY QUESTIONS ADDRESSED:

  • What is the need for grid hardening and resiliency technologies?
  • Which grid hardening and resiliency technologies are utilities and energy network operators deploying?
  • What are the benefits and drawbacks of grid hardening and resiliency deployments?
  • Which T&D assets are most critical and which require the most grid hardening and resiliency investments from utilities and network operators?
  • Which T&D assets are the highest and lowest risks for failure if not hardened?
  • What trends are driving and slowing the market for grid hardening and resiliency technologies?
  • What are the key recommendations and strategies for improving grid performance and increasing deployments of grid hardening and resiliency technologies?

WHO NEEDS THIS REPORT:

  • Utilities, transmission and distribution network operators
  • Transmission and distribution equipment manufacturers and solutions providers
  • Distributed energy providers
  • AMI Vendors
  • ADMS, SCADA, OMS, EMS, and other utility software and solutions providers
  • Edge computing technology vendors
  • Government agencies
  • Distributed energy resources network owners and operators
  • Investor community

TABLE OF CONTENTS

Spark

Context

Recommendations

Natural Disasters Have Become More Frequent, Intense, and Expensive

  • Predict, Prepare, and Protect
  • Withstand and Mitigate
  • Respond and Recover

Grid Hardening and Resiliency Technologies Improve Outage Prevention and Recovery

  • T&D Automation Provides Enhanced Control and Visibility
  • Centralized and Distributed Automation Control Schemes Combine for Optimal Control
  • FLISR Enables Superior Response Times
  • Remote Monitoring Maintains Grid Visibility Throughout and After Storms and Other Outage Events
  • Smart Metering Provides Granular, Hyper-Local Data Points for Outage Detection and Location
  • Physical Hardening Protects Grid Assets from Disaster Damage
  • Predictive Weather and Forecasting Platforms Provide Utilities with Critical Intelligence
  • Workforce Management and Emergency Response Planning Software Streamline Reparation Efforts

Utilities Must Strategically and Efficiently Invest for the Present and Future

  • Thinking Ahead Ensures Preparedness
  • Flexibility Enables Balanced Solutions
  • Collaboration Breeds Innovation
  • Reevaluation Is Critical for Future-Proofing

LIST OF CHARTS AND FIGURES

  • EIA SAIDI: 2013-2018