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市場調査レポート

石炭火力発電所向け大気汚染管理市場(〜2020年):現在の成長機会のために増加する発電所容量

Air Pollution Control Market for Coal - Fired Power Plants to 2020 - Increasing Plant Capacity to Present Growth Opportunities

発行 GBI Research 商品コード 135555
出版日 ページ情報 英文 139 Pages
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石炭火力発電所向け大気汚染管理市場(〜2020年):現在の成長機会のために増加する発電所容量 Air Pollution Control Market for Coal - Fired Power Plants to 2020 - Increasing Plant Capacity to Present Growth Opportunities
出版日: 2010年10月01日 ページ情報: 英文 139 Pages

当商品の販売は、2016年07月01日を持ちまして終了しました。

概要

当レポートでは、世界の石炭火力発電所向け大気汚染管理市場について調査し、主要3地域(北米・欧州・アジア太平洋地域)規制の枠組み、および規制が市場へ与える影響について分析、地域別・製品タイプ別の市場収益予測、各製品タイプの地域的・コスト分析データなどを提供しており、概略以下の構成でお届けいたします。

第1章 目次

第2章 石炭火力発電所における大気汚染管理:イントロダクション

第3章 市場概要

  • 市場力学
  • 大気汚染管理市場の促進因子・阻害因子:要約
  • 阻害因子:将来の障壁
  • 大気汚染管理装置市場:エンドユーザーの購入基準

第4章 石炭発電所排出量の規制:APCE市場の主要促進因子

  • 北米
  • 欧州
  • アジア太平洋地域

第5章 世界の大気汚染管理装置市場:〜2020年

  • 北米:先進市場は将来の成長へ向け肥沃な環境を提供
  • 欧州:途上市場は健全な成長を示す
  • アジア太平洋地域:市場を促進するための発電インフラの増加
  • その他地域

第6章 SOx管理技術 - 燃料ガス脱硫市場:〜2020年

  • 燃料ガス脱硫(FGD):SOx管理のタイプ
  • FGD市場:〜2020年
  • 地域別分析
  • コスト要因
  • 競合情勢

第7章 NOx管理技術市場:〜2020年

  • NOx技術市場:〜2020年
  • 地域別分析
  • コスト要因
  • 競合情勢

第8章 粒子状物質(PM)削減技術:〜2020年

  • 電気集塵装置(ESP)
  • 競合情勢
  • 繊維性フィルター(バグハウス)

第9章 大気汚染管理市場における新興技術

  • 水銀抑制技術
  • 複合汚染物質管理技術
  • 炭素隔離技術:待望の商用導入
  • 世界の炭素隔離プロジェクト

第10章 競合分析:市場における多くの課題

  • 競合に影響する要因

第11章 主要企業のプロファイル

  • Alstom SA
  • 三菱重工業
  • The Babcock & Wilcox Company
  • Hamon Research-Cottrell Inc.
  • Marsulex Environmental Technologies

第12章 付録

図表リスト

目次
Product Code: GBIPE0007MR

Abstract

GBI Research, a leading business intelligence provider, has released its latest research, “Air Pollution Control Market for Coal Fired Power Plants to 2020 - Increasing Plant Capacity to Present Growth Opportunities”. The report gives an in-depth analysis of the global Air Pollution Control Equipment (APCE) market for coal-fired power plants, covering four major regions - North America (USA and Canada), Europe, Asia-Pacific and the Rest of the World (South and Central America, the Middle East and Africa). The research analyzes the regulatory framework in the three most significant regions - North America, Europe and Asia-Pacific, and the impact of regulations on the air pollution control market for coal-fired power plants. The report covers market revenue forecasts for the air pollution control market for all the regions mentioned, and it also provides a detailed forecast of the market’s revenues by product type - Flue Gas Desulphurization (FGD), Nitrous Oxides (NOx), Electrostatic Precipitators (ESP) and Fabric Filters up to 2020. The report also includes geographic and cost analysis data for each product type. This report is built using data and information sourced from proprietary databases, primary and secondary research, and in-house analysis by GBI Research’s team of industry experts.

Environmental Legislations Stimulate Growth in North American Market

The US Environmental Protection Agency consistently works on new strategies aimed at providing a clearer strategy for industrial investment in air pollution controls. The tightening and widening of environmental legislations is one of the prime drivers of the air pollution control market. This market was created and is primarily driven by the mandates embodied in such regulations, since they call for reductions in hazardous air pollutants emitted from coal-fired power plants.

Regulations for the control of pollutants such as mercury are currently being formulated. This calls for technology advancement and the integration of new technology into the existing infrastructure and subsequently results in market growth with the rise in demand.

The Canadian government usually practices coordinating its emission reduction targets in line with US moves. Canada has 51 coal-fired plants producing 19% of the country' s electricity and 13% of its greenhouse gas emissions. However, 33 of these plants are expected to shutdown by 2025 unless the operators make substantial investments to cut emissions from these aging facilities. The regulations planned for the future are much stringent than he current ones for coal-fired power in the U S. The mandates require power plants to comply through different deadlines.

The stringent North American regulations and the size of the market offers a fertile environment for air pollution control applications and production.

Asia-Pacific Region Poised for Dramatic Growth in Air Pollution Control Market Facilitated by Soaring Coal Fired Power Plants Capacity

The Asia-Pacific region is witnessing significant growth in its air pollution control market on the back of its increasing coal-fired power capacity. This increasing capacity directly demands higher production of Flue Gas Desulphurization (FGD) and particulate matter removal equipment. Nitrous Oxide (NOX) removal is also expecting a promising future with upcoming regulations in certain Asia-Pacific countries. The Asia-Pacific market is expected to gradually supersede the North American market, with huge coal-fired capacity by 2020.

Over the last year an unprecedented number of coal-fired projects have been initiated around the world. China is the leader of this trend, but the US and India also have a number of projects in planning and construction phases. In fact, the need for energy security worldwide will result in more thermal power projects for the majority of countries.

The APCE market in Asia-Pacific generated revenue of $3.2 Billion in 2009 and is expected to reach $4.6 Billion in 2020, growing at a compound annual growth rate (CAGR) of 3.6% over the forecast period.

Air Pollution Control Market, $ Billion, 2006-2020

Source: GBI Research

Market Penetration of Mercury Control Technology Driven by MACT and Set to Expand Air Pollution Control Market

The Mercury Emission Control (MEC) business is currently being driven by the rules and regulations of 19 states in USA and several Canadian provinces. The MEC market is set to expand with new and more comprehensive Federal rules. Since the US Clean Air Act requires that all Maximum Achievable Control Technology MACT regulations drafted by the EPA for coal-fired boilers, covering 189 Hazardous Air Pollutants (HAP) including mercury (which is expected to be finalized by 2011), be met within 36 months, this is expected to create a sharp increase in market demand resulting in an expansion of the market starting late next year as utilities accelerate their efforts to become compliant by 2014.

Air Pollution Mitigation through Pollution Prevention Technologies Poses Threat to the Market

The high capital and operational costs of the APC technologies hinder their adoption. This in turn increases companies’ focus towards less expensive, mitigation-at-source technologies. Additionally, air pollution prevention technologies in this regard have the added advantage of high environmental performance.

Since failing to meet emission standards adversely affects the business, financial condition and results of their operations, utility companies look for alternative ways to comply, such as converting existing facilities to burn other types of fuel which are considered more environmentally friendly, which can often cost less than installing the emissions control systems required to keep an antiquated coal plant running.

Increasing focus towards renewable power is also amongst the emission reduction measures undertaken by the governments of many countries across the globe.

These factors may thereby result in a significant decline in demand for APC equipment and subsequently impact the global market.

Chinese Market Players Emerging as Fierce Competitors in International Market

China is the considered both an opportunity and a threat to the APCE market, since it innovates much faster despite many industrial accidents and an often inadequate organizational capacity. Chinese players in this market are very well positioned and will continue to catch-up and potentially leapfrog other competitors in this field.

In recent years, Chinese equipment suppliers have taken an active interest in overseas and local markets. Chinese products are priced at a relatively low-price, almost 15 - 20% less than the average global price of APC equipment. Due to substantial capital and operational costs and the uncertainty of emission regulations, end users are inclined towards the minimum possible investment in order to comply with regulations. Therefore, the movement of end users towards low-cost solutions is very likely, even though these low-cost solutions do not guarantee longevity and reliability.

These market participants have negatively impacted the market’s profit margins and pose a challenge to overseas suppliers, as domestic companies in this space need to invest less in terms of the production of emission reduction equipment, geographic diversification, and product advertisement, thus benefiting from easier market positioning.

Air Pollution Control Market for Coal - Fired Power Plants to 2020 - Increasing Plant Capacity to Present Growth Opportunities

Summary

The report gives an in-depth analysis of the global Air Pollution Control (APCE) market for coal-fired power plants, covering four major regions - North America (USA and Canada), Europe, Asia-Pacific and the Rest of the World (South and Central America, the Middle East and Africa). The research analyzes the regulatory framework in the three most significant regions, North America, Europe and Asia-Pacific, and the impact of regulations on air pollution control market for coal fired power plants. The report covers market revenue forecasts for the APCE market for all the above mentioned regions It also provides a detailed forecast of the market revenues by product type - Flue Gas Desulphurization (FGD), Nitrous Oxide (NOx) emission controls, Electrostatic Precipitators (ESP) and Fabric Filters - up to 2020. The report also includes geographic and cost analysis data for these product types.

Scope

- The air pollution control market for coal-fired power plants in four regions - North America (USA and Canada), Europe, Asia - Pacific and Rest of the World (South and Central America, the Middle East and Africa).
- The air pollution control market for coal-fired power plants in four product types - Flue Gas Desulphurization (FGD), NOx emission controls, Electrostatic Precipitators (ESP) and Fabric Filters.
- The regulatory framework in the three major regions - North America, Europe and Asia- Pacific, and the impact of regulations on the air pollution control market for coal-fired power plants.
- Technology of the product types (equipment).
- Market revenue from 2006 to 2009, with forecasts to 2020.
- Business overview, SWOT Analysis and review of the operational metrics of key companies in the region. These include Alstom, The Babcock &Wilcox Company, Mitsubishi Heavy Industries, Hamon Research Cottrell and Siemens Environmental.
- Insights into the major trends, drivers and challenges in the overall industry.

Reasons to buy

- Identify key markets and investment opportunities in the air pollution control equipment market.
- Make decisions based on strong historical and forecast data and detailed growth opportunities analysis.
- Understand and respond to the environmental regulations in North America (USA and Canada), Europe, Asia-Pacific and the Rest of the World (South and Central America, the Middle East and Africa).
- Position to take maximum advantage of the market’s growth potential.
- Identify the risks associated with the market and transform them into opportunities for future growth.
- Identify the scope of emerging technologies in the market.

Table of Contents

1 Table of Contents 4
1.1 List of Tables 7
1.2 List of Figures 8
2 Air Pollution Control in Coal-fired Plants - An Introduction 10
2.1 What This Report is about 11
2.2 How to Use This Report 11
2.3 Market Definition 11
2.4 GBI Research Report Guide 11
2.5 Coal - Cornerstone of Global Power System 12
2.6 Coal-Fired Generation - Coal Price Trends 13
2.7 Coal-fired Plants and Power Generation - Revival of Interest in Coal Promises Growth of APC Equipment 14
2.7.1 Coal-fired Plants, APC Equipment Market Set to Expand with Rise in Power Plant Infrastructure 15
2.7.2 Production Cost Comparison for Power Plants 16
2.7.3 Capital Cost Comparison for Power Plants 17
2.8 Air Pollution from Coal-fired Plants 18
2.8.1 Air Pollution from Coal-fired Plants, SOx emissions 19
2.8.2 Air Pollution from Coal-fired Plants, NOx emissions 20
2.8.3 Air Pollution from Coal-fired Plants, CO2 emissions 21
2.8.4 Air Pollution from Coal-fired Plants, Particulates 22
2.9 Emissions Trading (Cap and Trade): A Long-term Challenge 22
2.10 Advanced Power Generating Technologies Pose Risk in the Growth of the Air Pollution Control Market 22
2.10.1 Low-Emission Boiler System 22
2.10.2 Integrated Gasification Combined Cycle (IGCC) 22
2.10.3 Fluidized Bed Combustion (FBC) 23
2.10.4 Advanced Pulverized Coal Combustion 23
2.11 Coal-fired Plants, Role of Air Pollution Control Equipment in Reducing Air Pollution 24
2.12 Emission Controls as an Estimated Percentage of Total Costs for a New Coal-fired Power Plant 26
3 Market Overview - A Primer 27
3.1 Market Dynamics 29
3.1.1 Market Characteristics 29
3.1.2 Air Pollution Control Equipment Industry Analysis 30
3.2 Air Pollution Control Market, Drivers and Restraints: A Recapitulation 31
3.2.1 Key Drivers: Move towards Opportunities in the Future 31
3.3 Restraints: Bottlenecks in the Future 33
3.3.2 Market Challenges Give APCE Market a Competitive Future 35
3.4 Air Pollution Control Equipment Market, Purchase Criteria for End Users 37
4 Coal Power Plants Emission Regulations: A Prime Driver of the APCE Market 38
4.1 Regulations in North America 38
4.2 Regulations in Europe 39
4.2.1 IPPC Directive 40
4.2.2 LCP Directive 40
4.3 Regulations in Asia-Pacific 41
4.3.1 China 42
4.3.2 Japan 42
4.3.3 Vietnam 42
4.3.4 Indonesia 42
4.3.5 Philippines 43
4.3.6 India 43
4.3.7 Australia 43
5 Global Air Pollution Control Equipment Market to 2020 44
5.1 North American Air Pollution Control Equipment Market: Developed Market Offers Fertile Environment for Future Growth 47
5.2 European Air Pollution Control Equipment Market: Developing Market Shows Steady Growth 50
5.3 Asia -Pacific Air Pollution Control Equipment Market: Rise in Power Infrastructure to Boost the Market 53
5.4 Rest of the World Air Pollution Control Equipment Market 56
5.4.1 Equipment Maintenance and Related Services 58
6 SOx Control Technology - Flue Gas Desulfurization Market to 2020 59
6.1 Flue Gas Desulfurization (FGD) - Types of SOx control 59
6.1.1 Wet FGD Technology 60
6.1.2 Spray Dry Scrubbers for SOx Control 60
6.2 Flue Gas Desulfurization (FGD) Market to 2020 61
6.3 Flue Gas Desulfurization - Geographic Analysis 63
6.4 Flue Gas Desulfurization - Cost Factors 70
6.5 Flue Gas Desulfurization - Competitive Landscape 71
7 NOX Control Technology Market to 2020 72
7.1.1 Low NOx burners 72
7.1.2 Selective Catalytic Reduction 72
7.1.3 Selective Non-Catalytic Reduction 73
7.2 NOx Control Technologies Market to 2020 74
7.3 NOx Control Technologies - Geographic Analysis 75
7.4 NOx Control Technologies - Cost Factors 84
7.5 NOx Control Technologies - Competitive Landscape 84
8 Particulate Matter Reduction Technology to 2020 85
8.1 Electrostatic Precipitators 85
8.1.2 Electrostatic Precipitators Market to 2020 88
8.1.3 Electrostatic Precipitators - Geographic Analysis 90
8.2 Electrostatic Precipitators - Competitive Landscape 97
8.3 Fabric Filters (Baghouses) 98
8.3.1 Fabric Filters Market to 2020 99
8.3.2 Fabric Filters - Geographic Analysis 101
8.3.3 Fabric Filters - Competitive Landscape 108
8.3.4 Particulate Matter Reduction Technologies - Cost Analysis 109
9 Emerging Technologies in the Air Pollution Control Market 110
9.1 Mercury Control Technologies 110
9.2 Multi-Pollutant Control Technology 110
9.3 Carbon Sequestration Technology: Awaiting Commercial Deployment 110
9.3.1 Carbon Sequestration Technology - Overview 110
9.4 Global Carbon Sequestration Projects 111
9.4.1 Major Sequestration Projects 111
9.4.2 Challenges Associated with the Technology 112
10 Competitive Analysis: Challenges Galore in the Industry 113
10.1 Factors Affecting Competitiveness 113
11 Company Profiles of Key Players 115
11.1 Alstom SA 115
11.1.1 Alstom SA, Company Overview 115
11.1.2 Alstom SA, Business Description 115
11.1.3 Alstom SA, SWOT Analysis 116
11.1.4 Alstom SA - Strengths 117
11.1.5 Alstom SA - Weaknesses 119
11.1.6 Alstom SA - Opportunities 120
11.1.7 Alstom SA - Threats 121
11.2 Mitsubishi Heavy Industries, Ltd. 122
11.2.1 Mitsubishi Heavy Industries, Ltd., Company Overview 122
11.2.2 Mitsubishi Heavy Industries, Ltd., Business Description 122
11.2.3 Mitsubishi Heavy Industries, Ltd. - SWOT Analysis 123
11.2.4 Mitsubishi Heavy Industries, Ltd. - Strengths 123
11.2.5 Mitsubishi Heavy Industries, Ltd. - Weaknesses 123
11.2.6 Mitsubishi Heavy Industries, Ltd. - Opportunities 124
11.2.7 Mitsubishi Heavy Industries, Ltd. - Threats 125
11.3 The Babcock & Wilcox Company 125
11.3.1 The Babcock & Wilcox, Company Overview 125
11.3.2 The Babcock &Wilcox Company, Business Description 125
11.3.3 The Babcock & Wilcox Company - SWOT Analysis 126
11.3.4 The Babcock & Wilcox Company - Strengths 127
11.3.5 The Babcock & Wilcox Company - Weaknesses 127
11.3.6 The Babcock & Wilcox Company - Opportunities 128
11.3.7 The Babcock & Wilcox Company - Threats 128
11.4 Hamon Research-Cottrell Inc. 129
11.4.1 Hamon Research-Cottrell Inc., Company Overview 129
11.4.2 Hamon Research-Cottrell Inc., Business Description 129
11.4.3 Hamon Research-Cottrell Inc. - SWOT Analysis 130
11.4.4 Hamon Research-Cottrell Inc. - Strengths 130
11.4.5 Hamon Research-Cottrell Inc. - Weaknesses 131
11.4.6 Hamon Research-Cottrell Inc. - Opportunities 131
11.4.7 Hamon Research-Cottrell Inc. - Threats 131
11.5 Marsulex Environmental Technologies 132
11.5.1 Marsulex Environmental Technologies, Company Overview 132
11.5.2 Marsulex Environmental Technologies, Business Description 132
11.5.3 Marsulex Environmental Technologies - SWOT Analysis 133
11.5.4 Marsulex Environmental Technologies - Strengths 133
11.5.5 Marsulex Environmental Technologies - Weaknesses 134
11.5.6 Marsulex Environmental Technologies - Opportunities 134
11.5.7 Marsulex Environmental Technologies - Threats 134
12 Appendix 136
12.1 Methodology 136
12.1.1 Coverage 136
12.1.2 Secondary Research 136
12.1.3 Primary Research 136
12.1.4 Expert Panel Validation 137
12.2 Abbreviations 137
12.3 Contact Us 139
12.4 Disclaimer 139

1.1 List of Tables
Table 1: Coal in Electricity Generation, 2009 12
Table 2: Coal-fired Power Plants, 2006-2020 Forecasts 15
Table 3: Global Operating Costs by Type of Plant, ($/KWh), 2008 16
Table 4: Global Capital Cost ($/kW), 2008 17
Table 5: Carbon di Oxide Emissions by Coal Plants, (Billion Tonnes), 2008-2020 21
Table 6: Global Air Pollution- SOx Emissions by Coal Plants, (Million Tonnes), 2008-2020 24
Table 7: Global Air Pollution- NOx Emissions by Coal Plants, (Million Tonnes), 2008-2020 25
Table 8: Air Pollution Control Market, Estimated Costs, 2009 26
Table 9: Air Pollution Control Market, Market Characteristics, 2010-2020 29
Table 10: Best Available Techniques for SO2 reduction, Large Combustion Plants Directive 40
Table 11: New Minimum NOx Emission Limit Values (ELV) for Large Combustion Plants (LCP) 41
Table 12: Asia-Pacific Regulatory Framework , Emission Control For Coal-fired Plant - A Snapshot 41
Table 13: Coal-fired Power Plants, Acceptable Emission Levels, Japan 42
Table 14: Coal-fired Power Plants, Acceptable Emission Levels, Vietnam 42
Table 15: Coal-fired Power Plants, Acceptable Emission Levels, Philippines 43
Table 16: Air Pollution Control Market, Market Revenue (Global), 2006-2020 45
Table 17: Air Pollution Control Market, Market Revenue (North America), 2006-2020 48
Table 18: Air Pollution Control Market, Market Revenue (Europe), 2006-2020 51
Table 19: Air Pollution Control Market, Market Revenue (Asia-Pacific), 2006-2020 54
Table 20: Air Pollution Control Market, Market Revenue (Rest of the World), 2006-2020 57
Table 21: Wet FGD, Snapshot 60
Table 22: Flue Gas Desulfurization, Market Revenue (Global), 2006-2020 62
Table 23: Flue Gas Desulfurization, Market Revenue (North America), 2006-2020 64
Table 24: Flue Gas Desulfurization, Market Revenue (Europe), 2006-2020 66
Table 25: Flue Gas Desulfurization, Market Revenue (Asia-Pacific), 2006-2020 67
Table 26: Flue Gas Desulfurization, Market Revenue (Rest of the World), 2006-2020 69
Table 27: Cost Estimation for Flue Gas Sulfurization, 500 MW Plant, 2009 70
Table 28: SOx Control Technologies Market, Market Share (Global), 2009 71
Table 29: NOx Control, Market Revenue (Global), 2006-2020 75
Table 30: NOx Control, Market Revenue (North America), 2006-2020 77
Table 31: NOx Control, Market Revenue (Europe), 2006-2020 79
Table 32: NOx Control, Market Revenue (Asia-Pacific), 2006-2020 81
Table 33: NOx Control, Market Revenue (Rest of the World), 2006-2020 83
Table 34: Cost (Global), NOx Control Technologies, 2009 84
Table 35: NOx Control Market, Company Ranking (Global), 2009 84
Table 36: Particulate Matter Control Technologies, Snapshot 85
Table 37: Electrostatic Precipitator, Market Revenue (Global), 2006-2020 89
Table 38: Electrostatic Precipitator, Market Revenue (North America), 2006-2020 91
Table 39: Electrostatic Precipitator, Market Revenue (Europe), 2006-2020 93
Table 40: Electrostatic Precipitator, Market Revenue (Asia-Pacific), 2006-2020 95
Table 41: Electrostatic Precipitator, Market Revenue (Rest of the World), 2006-2020 97
Table 42: Electrostatic Precipitators Market, Company Ranking (Global), 2009 97
Table 43: Fabric Filter, Market Revenue (Global), 2006-2020 100
Table 44: Fabric Filter, Market Revenue (North America), 2006-2020 102
Table 45: Fabric Filter, Market Revenue (Europe), 2006-2020 104
Table 46: Fabric Filter, Market Revenue (Asia-Pacific), 2006-2020 106
Table 47: Fabric Filter, Market Revenue (Rest of the World), 2006-2020 108
Table 48: Fabric Filter Market, Company Ranking (Global), 2009 108
Table 49: Cost (Global), Particulate Matter, 2009 109
Table 50: Air Pollution Control Market, Key Market Players by Product Type, 2009 114
Table 51: Alstom SA, SWOT Analysis 117
Table 52: Mitsubishi Heavy Industries, Ltd., SWOT Analysis 123
Table 53: The Babcock & Wilcox Company, SWOT Analysis 126
Table 54: Hamon Research - Cottrell Inc., SWOT Analysis 130
Table 55: Marsulex Environmental Technologies, SWOT Analysis 133

1.2 List of Figures
Figure 1: Global Air Pollution Control Technology Type, 2009 10
Figure 2: Air Pollution Control Market, Coal Price Trends ,1989-2009 13
Figure 3: Factors Impacting Growth of Global Coal-fired Plants 14
Figure 4: Coal-fired Power Plants, (GW), 2006-2020 15
Figure 5: Global Electricity Operating Costs, (cents/kWh), 2008 16
Figure 6: Global Capital Cost ($/kW), 2008 17
Figure 7: Coal-fired Plants, Sources Of Pollution 18
Figure 8: Air Pollution, Release of Sulfur Oxides Causing Acid Rains 19
Figure 9: Air Pollution, Impact of NOx on Environment 20
Figure 10: Global Air Pollution Carbon di Oxide Emissions by Coal Plants, (Billion Tonnes), 2008-2020 21
Figure 11: Global Air Pollution- SOx Emissions by Coal Plants, (Million Tonnes), 2008-2020 24
Figure 12: Global Air Pollution- NOx Emissions by Coal Plants, (Million Tonnes), 2008-2020 25
Figure 13: Air Pollution Control Market, Schematic Diagram of Equipments 28
Figure 14: Air Pollution Control Equipment, Industry Analysis 30
Figure 15: Air Pollution Control Market, Key Drivers 31
Figure 16: Air Pollution Control Market, Key Restraints 33
Figure 17: Air Pollution Control Market, Purchase Criteria 37
Figure 18: Air Pollution Control Equipment, Regulatory Framework Analysis 38
Figure 19: Air Pollution Control Equipment, SOx 39
Figure 20: Air Pollution Control Market, Market Revenue (Global), 2006-2020 45
Figure 21: Air Pollution Control Market, Share of Revenue by Product Type(Global), 2006-2020 46
Figure 22: Air Pollution Control Market, Market Revenue (North America), 2006-2020 47
Figure 23: Air Pollution Control Market, Share of Revenue by Product Type(North America), 2006-2020 49
Figure 24: Europe Air Pollution Control Market, Market Forces Analysis 50
Figure 25: Air Pollution Control Market, Market Revenue (Europe), 2006-2020 51
Figure 26: Air Pollution Control Market, Share of Revenue by Product Type(Europe), 2006-2020 52
Figure 27: Asia-Pacific Air Pollution Control Market, Market Forces Analysis 53
Figure 28: Air Pollution Control Market, Market Revenue (Asia-Pacific), 2006-2020 54
Figure 29: Air Pollution Control Market, Share of Revenue by Product Type(Asia-Pacific), 2006-2020 55
Figure 30: Air Pollution Control Market, Market Revenue (Rest of the World), 2006-2020 56
Figure 31: Air Pollution Control Market, Share of Revenue by Product Type (Rest of the World), 2006-2020 57
Figure 32: Air Pollution Control Equipment, Type of SOx Technology 59
Figure 33: Global SOx Equipment Market by Type of Technology, 2009 60
Figure 34: Flue Gas Desulfurization, Market Revenue (Global), 2006-2020 61
Figure 35: Flue Gas Desulfurization, Market Revenue (North America), 2006-2020 63
Figure 36: Flue Gas Desulfurization, Market Revenue (Europe), 2006-2020 65
Figure 37: Flue Gas Desulfurization, Market Revenue (Asia-Pacific), 2006-2020 67
Figure 38: Flue Gas Desulfurization, Market Revenue (Rest of the World), 2006-2020 68
Figure 39: Global SOx Control Technologies Market, Market Share , 2009 71
Figure 40: Global NOx Equipment Market by Type of Technology, 2009 72
Figure 41: NOx Control, Market Revenue (Global), 2006-2020 74
Figure 42: NOx Control, Market Revenue (North America), 2006-2020 76
Figure 43: NOx Control, Market Revenue (Europe), 2006-2020 78
Figure 44: NOx Control, Market Revenue (Asia-Pacific), 2006-2020 80
Figure 45: NOx Control, Market Revenue (Rest of the World), 2006-2020 82
Figure 46: Electrostatic Precipitator, Schematic View 86
Figure 47: Electrostatic Precipitator, Market Revenue (Global), 2006-2020 88
Figure 48: Electrostatic Precipitator, Market Revenue (North America), 2006-2020 90
Figure 49: Electrostatic Precipitator, Market Revenue (Europe), 2006-2020 92
Figure 50: Electrostatic Precipitator, Market Revenue (Asia-Pacific), 2006-2020 94
Figure 51: Electrostatic Precipitator, Market Revenue (Rest of the World), 2006-2020 96
Figure 52: Fabric Filter, Schematic View 98
Figure 53: Fabric Filter, Market Revenue (Global), 2006-2020 99
Figure 54: Fabric Filter, Market Revenue (North America), 2006-2020 101
Figure 55: Fabric Filter, Market Revenue (Europe), 2006-2020 103
Figure 56: Fabric Filter, Market Revenue (Asia-Pacific), 2006-2020 105
Figure 57: Fabric Filter, Market Revenue (Rest of the World), 2006-2020 107
Figure 58: World, Major Sequestration Projects, 2008 111
Figure 59: Air Pollution Control Market, Factors Affecting Competitiveness 113

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