表紙
市場調查報告書

微電網和VPP (虛擬電廠) 的突破創新

Breakthrough Innovations in Microgrids and Virtual Power Plants

出版商 Frost & Sullivan 商品編碼 913949
出版日期 內容資訊 英文 57 Pages
商品交期: 最快1-2個工作天內
價格
微電網和VPP (虛擬電廠) 的突破創新 Breakthrough Innovations in Microgrids and Virtual Power Plants
出版日期: 2019年09月30日內容資訊: 英文 57 Pages
簡介

本報告研究微電網和VPP (Virtual Power Plant/虛擬電廠) 的主要創新趨勢,彙整技術創新、專利動向、融資動向、影響市場因素、商業模式等情報。

第1章 摘要整理

第2章 微電網:簡介

  • 簡化實行、改善控制、降低安裝成本的需求推動著微電網的創新

第3章 微電網技術創新

  • 電網監測的線感測器
  • 透明能源交易的能源區塊鏈
  • 微電網的模組化儲能解決方案
  • 長時間儲能的裝箱式鈉硫電池
  • 節能GaN功率半導體元件
  • 透過專用轉換電路降低燃油需求之變速發電機
  • 混合柴油發電機:微電網的可再生資源系統

第4章 專利情勢和融資活動

  • 中國引領著微電網專利申請活動
  • 政府創製推動微電網發展

第5章 見解和建議

第6章 VPP:簡介

  • 增加越來越多分散化以因應未來電網的穩定性挑戰
  • VPP生態系統中的利害相關者

第7章 推動虛擬電廠 (VPP) 創新的因素

  • 管理電網過密的機會和尖峰電力價格的降低推動VPP導入

第8章 影響VPP市場的市場趨勢

  • 大型能源企業收購VPP提供商,以利用其未來龐大的潛力、並協助擴大技術規模
  • 策略合作協助VPP營運商加速市場導入
  • 各種合作推動VPP測試

第9章 VPP的創新技術和商業模式

  • 更好地管理DER以防止價格波動
  • 管理VPP及促進能源交易的區塊鏈應用
  • 能源公共事業和太陽能企業在基於太陽能+儲能 (solar-plus-storage) 系統的VPP導入方面進行合作、其他

第10章 專利和融資:VPP

第11章 見解和建議:VPP

第12章 產業聯絡資訊

第13章 主要專利

目錄
Product Code: D8E4

Technologies and Innovations with the Potential to Disrupt the Landscape of Microgrids and VPPs

The world is undergoing a transition in the energy industry from the traditional fossil-fuel based baseload power generation to a decentralized, distributed, and cleaner format due to approaching or already established grid parity of many technologies, such as solar power, offshore wind power, electric vehicles and the like. However, conventional utilities are accustomed to a centralized control of its energy assets. With solar rooftops cropping up at homes and EV charging points being installed at various points, the grid becomes vulnerable to voltage fluctuations and grid outages. Utilities and grid operators are faced with the challenge of controlling this increasing number of distributed energy resources (DERs).

Here, the two concepts discussed help in making the grid resilient to an inevitable renewable energy future and at the same time ensure that customers get reliable, cheap, and clean energy. The two concepts being covered in this report are Microgrids and Virtual Power Plants (VPPs). As microgrids have become a commercially feasible solution, VPP is still in the demonstration stages largely. Nevertheless, it is important to discuss the key innovations in these areas and that is the focus of this report.

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Key Findings - Microgrids
  • 1.5. Key Findings - VPPs

2.0. Introduction to Microgrids

  • 2.1. Need for Simplifying Implementation, Improving Control, and Reducing Installation Costs Drives Innovations in Microgrids

3.0. Technology Innovations in Microgrids

  • 3.1. Line Sensors for Grid Monitoring
  • 3.2. Energy Blockchain for Transparent Energy Transactions
  • 3.3. Modular Energy Storage Solutions for Microgrids
  • 3.4. Containerized Sodium Sulfur Batteries for Prolonged Energy Storage
  • 3.5. Energy Saving GaN Power Semiconductor Devices
  • 3.6. Variable Speed Generators for Reducing Fuel Requirements through Proprietary Converter Circuits
  • 3.7. Hybrid Diesel Generator - A Renewable Source System for Microgrids

4.0. Patent Scenario and Funding Activities

  • 4.1. China Leads Patent Filing Activity in Microgrids
  • 4.2. Government Initiatives Catalyze Deployment of Microgrids

5.0. Insights and Recommendations

  • 5.1. Strategic Outlook
  • 5.2. Strategic Outlook for the Future

6.0. Introduction to VPPs

  • 6.1. Increasing Decentralization Capable of Addressing Grid Stability Challenges for Future Grids
  • 6.2. Stakeholders in the VPP Ecosystem

7.0. Factors Driving Innovations in Virtual Power Plants (VPPs)

  • 7.1. Opportunity to Manage Grid Congestion and Reduce Peak Electricity Prices Drive Adoption of VPPs

8.0. Market Trends Impacting the VPP Market

  • 8.1. Large Energy Companies Acquire VPP Providers to Leverage their Huge Future Potential and Help Scale the Technology
  • 8.2. Strategic Partnerships Help VPP Operators Accelerate Market Adoption
  • 8.3. Different Partnerships Facilitate Testing of VPPs

9.0. Innovative Technologies and Business Models in VPPs

  • 9.1. Better Management of DERs to Protect Against Pricing Fluctuations
  • 9.2. Application of Blockchain for Managing VPPs and Facilitating Energy Trading
  • 9.3. Energy Utilities and Solar Companies Collaborate to Adopt VPPs Based on Solar-Plus-Storage Systems
  • 9.4. VPPs Enable Frequency Response for Waste Management Facilities in the UK
  • 9.5. Residential Battery Programs Help Expand VPP Portfolio in Australia
  • 9.6. VPP Software Manages and Monitors Decentralized Plants and Distributed Loads in UK
  • 9.7. Unique Business Model that Combines Battery Network with Grid Services Contract

10.0. Patents and Funding - VPPs

  • 10.1. China Organizations Lead in Global Patent Activity
  • 10.2. Funding Activities Concentrated in the Australian Continent due to Increasing Penetration of DERs

11.0. Insights and Recommendations - VPPs

  • 11.1. Strategic Outlook for Future VPPs

12.0. Key Contacts

  • 12.1. Key Industry Influencers

13.0. Key Patents

  • 13.1. Key Patents - Microgrids
  • 13.1. Key Patents - Microgrids (continued)
  • 13.1. Key Patents - Microgrids (continued)
  • 13.2. Key Patents - VPPs
  • 13.2. Key Patents - VPPs (continued)
  • Legal Disclaimer