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世界のマイクログリッドにおける熱源供給システム(コジェネレーション)の市場分析と予測:タービン、マイクロタービン、レシプロ発電セット、燃料電池

Market Data: Combined Heat and Power in Microgrids

Turbines, Microturbines, Reciprocating Gensets, and Fuel Cells: Global Market Analysis and Forecasts

 

出版社 出版年月電子版価格 ページ数図表数
Navigant Research
ナビガントリサーチ
2017年6月US$3,800
1-5ユーザライセンス(PDF+Excel)
36 38

サマリー

米国調査会社ナビガントリサーチ(Navigant Research)の調査レポート「世界のマイクログリッドにおける熱源供給システム(コジェネレーション)の市場分析と予測:タービン、マイクロタービン、レシプロ発電セット、燃料電池」は、世界のマイクログリッドにおけるコジェネレーション(CHP)市場を調査し、5つの地域の5つのマイクログリッドセグメントのデータを集約している。世界のマイクログリッド市場のCHPの5つの主要な原動機機器である燃焼タービン、蒸気タービン、マイクロタービン、天然ガスレシプロ発電セット(往復動機構発電)、燃料電池の年間発電容量や収益に関する分析を提供している。2026年までの年間発電容量や収益をセグメント毎、技術毎、地域毎に予測している。マイクログリッドのCHPに関連する主要な市場と技術問題も分析している。

目次(抜粋)

  • CHPとマイクログリッドの市場概観
  • 2017年のCHP市場
  • 技術概観
  • 市場予測

Combined heat and power (CHP) systems—which generate electricity and useful thermal energy in a single unit—were the original microgrids. CHP has been operating as an efficient, simple form of self-sustaining microgrid for more than a century. Boasting double the efficiency of typical grid-supplied power, the opportunities for modern CHP’s positive impact are vast. Yet, growth has been stagnant and most applications remain focused on large systems in niche markets.

Demand for CHP in microgrids is subject to a complex mix of drivers and hurdles. CHP is sought after for boosting energy resilience, cutting emissions compared to grid power, and lowering utility bills. On the other hand, project complexity, interconnection challenges, and concerns about long-term emissions on a lower carbon grid are some of the hurdles faced. Industry players that can navigate these shifting forces will be rewarded as demand continues to grow. According to Navigant Research, global demand for CHP prime mover equipment in microgrids is expected to grow from 655 MW in 2017 to 1,906 MW in 2026.

This Navigant Research report examines the global market for CHP in microgrids, aggregating data on five microgrid segments across five regions. The study provides an analysis of the global microgrid market in terms of total annual capacity and revenue attached to five types of CHP prime mover equipment: combustion turbines, steam turbines, microturbines, natural gas reciprocating gensets, and fuel cells. Global market forecasts for capacity and revenue, broken out by segment, technology, and region, extend through 2026. The report also analyzes the key market and technology issues related to CHP in microgrids.

Key Questions Addressed:
  • What are the common and conflicting drivers for combined heat and power (CHP) and microgrids?
  • What new applications exist for CHP in microgrids?
  • How does demand for other microgrid enabling technologies like PV and storage affect demand for CHP in microgrids?
  • Which prime movers will see the most demand for CHP in microgrids from 2017 to 2026?
  • Which regions will see the most demand for CHP in microgrids over the forecast?
  • Which microgrid segments will see the most demand for CHP over the forecast?
Who needs this report?
  • Natural gas generator set (genset) vendors
  • Fuel cell vendors
  • Microturbine vendors
  • Turbine vendors
  • Large industrial power users
  • Energy developers
  • Utilities and grid operators
  • Investor community


目次

1. Executive Summary

1.1   Overview

1.2   CHP and Microgrids: Shared Drivers

1.3   Significant Hurdles Remain

1.4   Opportunities and Recommendations

1.5   Market Forecast

2. Market Issues

2.1   Combined Heat and Power in 2017

2.1.1   Microgrid Segments

2.2   Market Drivers and Barriers

2.2.1   Improvements in Enabling Technologies

2.2.2   Extreme Weather Events and Demand for Resilient Power

2.2.3   Government Incentives

2.2.4   Renewable Portfolio Standard and Climate Change Regulations

2.2.5   Backfill of Retiring Coal and Nuclear

2.2.6   High Spark Spread

2.2.7   Financing and Ownership Challenges

2.2.8   Interconnection Hurdles

2.2.9   Utilities and CHP

3. Technology Issues

3.1   Technology Overview

3.2   CHP for Flexible Grid Support

3.2.1   Thermal Storage as Grid-Balancing Resource

3.3   Renewable Fuels and CHP

4. Market Forecasts 

4.1   The State of CHP in Microgrids

4.1.1   Resource Mix: CHP Prime Movers

4.1.2   Other DER in CHP Microgrids

4.2   Forecast Assumptions

4.3   Forecasts by Segment and Technology

4.3.1   Institutional/Campus Microgrids

4.3.2   C&I Microgrids

4.3.3   Community Microgrids

4.3.4   Military Microgrids

4.3.5   Other Microgrid Segments

4.4   Forecasts by Region and Segment

4.4.1   North America

4.4.2   Europe

4.4.3   Asia Pacific

4.4.4   Latin America

4.4.5   Middle East & Africa

4.5   Conclusions and Recommendations

5. Acronym and Abbreviation List
6. Table of Contents
7. Table of Charts and Figures
8. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

  • Combined Heat and Power: Typical Energy Flows
  • CHP Prime Mover Share by Number of Microgrids, World Markets: 2017
  • CHP Prime Mover Share in Microgrids by Capacity, World Markets: 2017
  • Share of Non-CHP DER in CHP Microgrids, World Markets: 2017
  • Annual CHP Equipment Capacity and Revenue by Technology, Institutional/Campus Segment, World Markets: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Technology, C&I Segment, World Markets: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Technology, Community Segment, World Markets: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Technology, Military Segment, World Markets: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Technology, Other Segments, World Markets: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Segment, North America: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Segment, Europe: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Segment, Asia Pacific: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Segment, Latin America: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Segment, Middle East & Africa: 2017-2026
  • Annual CHP Equipment Capacity and Revenue by Region, World Markets: 2017-2026

List of Tables

  • CHP and Microgrids: The Magnitude of Impact of Drivers and Barriers
  • Annual CHP Prime Mover Equipment Capacity Additions by Region, World Markets: 2017-2026
  • Annual CHP Prime Mover Equipment Revenue by Region, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Prime Mover Technology in Institutional/Campus Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Revenue by Prime Mover Technology in Institutional/Campus Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Prime Mover Technology in C&I Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Revenue by Prime Mover Technology in C&I Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Prime Mover Technology in Community Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Revenue by Prime Mover Technology in Community Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Prime Mover Technology in Military Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Revenue by Prime Mover Technology in Military Microgrids, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Prime Mover Technology in Other Microgrid Segments, World Markets: 2017-2026
  • Annual CHP Equipment Revenue by Prime Mover Technology in Other Microgrid Segments, World Markets: 2017-2026
  • Annual CHP Equipment Capacity Additions by Segment, North America: 2017-2026
  • Annual CHP Equipment Revenue by Segment, North America: 2017-2026
  • Annual CHP Equipment Capacity Additions by Segment, Europe: 2017-2026
  • Annual CHP Equipment Revenue by Segment, Europe: 2017-2026
  • Annual CHP Equipment Capacity Additions by Segment, Asia Pacific: 2017-2026
  • Annual CHP Equipment Revenue by Segment, Asia Pacific: 2017-2026
  • Annual CHP Equipment Capacity Additions by Segment, Latin America: 2017-2026
  • Annual CHP Equipment Revenue by Segment, Latin America: 2017-2026
  • Annual CHP Equipment Capacity Additions by Segment, Middle East & Africa: 2017-2026
  • Annual CHP Equipment Revenue by Segment, Middle East & Africa: 2017-2026

 

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プレスリリース

[プレスリリース原文]

Navigant Research Expects Global Demand for CHP Generation Equipment in Microgrids to Reach Nearly 2 GW in 2026

Industry players who can navigate shifting forces surrounding CHP in microgrids will be rewarded as demand continues to grow

June 14, 2017

A new report from Navigant Research analyzes the global market for combined heat and power (CHP) in microgrids, aggregating data on five microgrid segments across five regions, with forecasts for capacity and revenue, through 2026.

CHP has been operating as an efficient, simple form of self-sustaining microgrid for more than a century. Boasting double the efficiency of typical grid-supplied power, the opportunities for modern CHP’s positive impact are vast.  According to a new report from Navigant Research, global demand for CHP prime mover equipment in microgrids is expected to grow from 655 MW in 2017 to 1,906 MW in 2026.

“Modern microgrids are a global phenomenon riding parallel currents of technology, climate, and policy change—and they may represent the biggest new opportunity for CHP in decades,” says Adam Forni, senior research analyst at Navigant Research. “In a growing symbiotic relationship, CHP brings mature baseload generation capability, while microgrids open new markets and improve integration with other distributed energy resources.”

While CHP is sought after for its ability to boost energy resilience, cut emissions compared to grid power, and lower utility bills, issues such as project complexity, interconnection challenges, and concerns about long-term emissions on a lower-carbon present barriers to wider adoption. According to the report, industry players who can navigate these shifting forces will be rewarded as demand continues to grow.

The report, Market Data: Combined Heat and Power in Microgrids, examines the global market for CHP in microgrids, aggregating data on five microgrid segments across five regions. The study provides an analysis of the global microgrid market in terms of total annual capacity and revenue attached to five types of CHP prime mover equipment: combustion turbines, steam turbines, microturbines, natural gas reciprocating gensets, and fuel cells. Global market forecasts for capacity and revenue, broken out by segment, technology, and region, extend through 2026. The report also analyzes the key market and technology issues related to CHP in microgrids.

 

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