首页 > 市场调查报告书 > 工业机械

空调设备

市场调查报告书

商品编码

1479090

氮氧化物控制系统市场：现况分析与预测（2023-2030）

Nitrogen Oxide Control System Market: Current Analysis and Forecast (2023-2030)

出版日期: 2024年04月01日 | 出版商:

UnivDatos Market Insights Pvt Ltd | 英文 125 Pages | 商品交期: 最快1-2个工作天内

价格

简介目录

由于人们对空气污染的担忧日益加剧以及政府对此问题的严格监管，氮氧化物控制系统市场预计将以约 5.8% 的复合年增长率强劲增长。氮氧化物 (NOx) 是一组高活性气体，是空气污染的主要来源，有助于形成烟雾、酸雨和地面臭氧。这些气体主要是由发电厂、工业设施和汽车中化石燃料的燃烧所排放的。随着人们对空气品质及其对人类健康和环境影响的日益关注，世界各地对有效氮氧化物控制系统的需求正在迅速增加。此外，世界各国政府正在引入更严格的排放标准，以控制空气污染并减少氮氧化物对环境的影响。例如，美国环保署 (EPA) 将在 2024 年 2 月加强氮氧化物国家空气品质标准 (NAAQS)，旨在保护公众免受心臟病和过早死亡等有害且代价高昂的健康影响。受到限制。

根据技术，市场分为选择性催化还原 (SCR)、选择性非催化还原 (SNCR)、低氮氧化物燃烧器和燃料再燃烧。选择性催化还原 (SCR) 在市场占有率和渗透率方面脱颖而出，成为主导细分市场。控制工业和公用事业锅炉的氮氧化物 (NOx) 排放是一个主要的环境问题。人们已经开发了各种技术来减少氮氧化物，包括选择性催化还原（SCR）、选择性非催化还原（SNCR）、低氮氧化物燃烧器和燃料再燃烧。其中，SCR目前在NOx控制系统市场占据主导占有率。 SCR 可实现高达 90% 或更高的氮氧化物减排效率，使其成为满足严格排放法规最有效的技术。此外，SCR 系统用途广泛，可改造现有锅炉和其他燃烧源，以及发电、水泥、化学和炼油等多个行业的新装置。此外，SCR 系统可以在广泛的温度和负载条件下运行，从而可以灵活地控制不同运行情况下的氮氧化物排放。这种市场发展表明了 SCR 氮氧化物控制系统市场的重要性，并创造了有利的情景来支持其在整个预测期内的成长轨迹。

根据应用，市场分为发电/能源、化学、交通和工业。氮氧化物（NOx）是各种工业、交通、发电和化工厂燃烧过程中释放的有害污染物。为了解决氮氧化物排放对环境的影响，全球市场各领域对氮氧化物控制系统的需求显着增加。就市场收入和氮氧化物控制系统的广泛采用而言，发电和能源领域脱颖而出。推动发电和能源领域采用氮氧化物控制系统的主要因素包括法规遵循。氮氧化物 (NOx) 是发电厂燃烧煤炭、天然气和石油等化石燃料时产生的常见污染物。氮氧化物排放是烟雾、酸雨和空气品质差的主要原因。为了解决这个问题，世界各国政府实施了严格的法规，限制发电设施的氮氧化物排放量。美国环保署的酸雨计画、欧盟的工业排放指令和中国的超低排放标准只是推动电力产业氮氧化物监管的一些法规范例。超过限制的发电厂将面临巨额罚款和处罚。此外，发电厂，尤其是燃煤发电厂，是最大的固定氮氧化物排放源之一。单一燃煤电厂每年排放数千吨氮氧化物。氮氧化物控制系统对于发电厂至关重要，因为控制如此大的点源比针对较小的分散式来源更有效。这些因素创造了一个促进氮氧化物控制系统在发电和能源领域广泛采用的环境。

为了更瞭解氮氧化物控制系统的市场实施情况，市场为北美（美国、加拿大和其他北美地区）、欧洲（德国、英国、法国和其他欧洲地区）和亚太地区（中国、日本）、印度、韩国和亚太地区其他地区）以及世界其他地区。亚太地区各行业氮氧化物 (NOx) 控制系统的采用量正在迅速增加。推动这种采用的因素有很多，包括城市化进程的加速、电力需求的增加以及对排放对环境影响的日益担忧。亚太地区各国政府日益认识到应对气候变迁和减少温室气体排放的重要性。一些国家已经实施了政策和措施来促进清洁技术的采用，包括氮氧化物控制系统。例如，日本经济产业省（METI）针对引进排放控制技术的产业推出了各种补贴和税收优惠。同样，韩国的排放控制技术开发计画旨在支持先进排放控制系统的开发和商业化。此外，由于快速工业化和人口成长，亚太地区的电力需求正在快速成长。例如，根据国际能源总署 (IEA) 的数据，到 2040 年，该地区的电力需求预计将增加近 60%。电力需求的成长主要由燃煤电厂和天然气电厂满足，它们是氮氧化物排放的重要来源。为了减少这些发电厂对环境的影响，该地区国家要求安装氮氧化物控制系统。例如，印度环境、森林和气候变迁部对火力发电厂製定了严格的氮氧化物排放法规，并正在推广采用选择性催化还原（SCR）和选择性非催化还原（SNCR）系统。这些因素提供了推动力，并支持亚太地区氮氧化物控制系统在预测期内的成长轨迹。

市场上的主要公司包括Honeywell International Inc.;CECO ENVIRONMENTAL; John Wood Group PLC; MITSUBISHI HEAVY INDUSTRIES, LTD.; DUCON Environmental; Babcock & Wilcox Enterprises, Inc; Siemens Energy; Phinia Inc.; Yara; and Spraying Systems Co.

A nitrogen oxide (NOx) control system is a set of technologies and measures implemented in various industrial processes and combustion systems to reduce the formation and emission of nitrogen oxides. Nitrogen oxides, primarily nitric oxide (NO) and nitrogen dioxide (NO2) are air pollutants that contribute to acid rain, ground-level ozone formation, and respiratory health issues. The primary objective of a NOx control system is to minimize the formation of nitrogen oxides during combustion processes or to remove them from the exhaust gases before they are released into the atmosphere. These systems are commonly employed in power plants, industrial furnaces, boilers, and vehicles.

The Nitrogen Oxide Control System Market is expected to grow at a strong CAGR of around 5.8% owing to the growing concerns about air pollution and governments' stringent regulations regarding this issue. Nitrogen oxides (NOx) are a group of highly reactive gases that are a major source of air pollution, contributing to the formation of smog, acid rain, and ground-level ozone. These gases are primarily emitted from the combustion of fossil fuels in power plants, industrial facilities, and vehicles. As concerns over air quality and its impact on human health and the environment continue to rise, the demand for effective nitrogen oxide control systems has been growing rapidly worldwide. Furthermore, Governments around the world have implemented stringent emission standards to curb air pollution and reduce the environmental impact of nitrogen oxides. For instance, in February 2024, the U.S. Environmental Protection Agency (EPA) strengthened National Ambient Air Quality Standards (NAAQS) for NOx, limiting it, aiming to protect its population from harmful and expensive health impacts, such as heart attack and premature deaths.

Based on the technology, the market is categorized into selective catalytic reduction (SCR), selective non-catalytic reduction (SNCR), low NOx burner, and fuel reburning. Selective catalytic reduction (SCR) stands out as a dominant segment in terms of market share and widespread adoption. The control of nitrogen oxide (NOx) emissions from industrial and utility boilers is a major environmental concern. Various technologies have been developed to reduce NOx, including selective catalytic reduction (SCR), selective non-catalytic reduction (SNCR), low NOx burners, and fuel reburning. Among these technologies, SCR currently holds the dominant share of the NOx control systems market. SCR can achieve NOx reduction efficiencies of up to 90% or higher, making it the most effective technology for meeting stringent emission regulations. Furthermore, SCR systems exhibit broad applicability and can be retrofitted to existing boilers and other combustion sources, as well as integrated into new installations across various industries, such as power generation, cement, chemical, and refining. Additionally, SCR systems can operate over a wide range of temperatures and load conditions, providing flexibility in controlling NOx emissions during varying operational scenarios. These developments along with others demonstrate the significance of SCR NOx control systems in the markets, creating a favorable scenario supporting its growth trajectory throughout the forecast period.

Based on the application, the market is segmented into power generation & energy, chemical, transportation, and industrial. Nitrogen Oxides (NOx) are harmful pollutants released during combustion processes in various industries, transportation, power generation, and chemical plants. To combat the environmental impact of NOx emissions, the global market has seen a significant rise in the demand for NOx control systems across different sectors. Among the sectors mentioned, power generation & energy stands out as a dominant segment in terms of market revenue and widespread adoption of NOx control systems. The primary factor driving the adoption of NOx control systems in power generation & energy includes regulatory compliance. Nitrogen oxides (NOx) are a prevalent pollutant produced from the combustion of fossil fuels like coal, natural gas, and oil in power plants. NOx emissions are a major contributor to smog, acid rain, and poor air quality. To combat this, governments globally have implemented stringent regulations capping the allowable NOx emissions from power generation facilities. The U.S. Environmental Protection Agency's Acid Rain Program, the European Union's Industrial Emissions Directive, and China's Ultra-Low Emissions Standards are just some examples of the regulations driving NOx control in the power sector. Plants exceeding limits face hefty fines and penalties. Furthermore, Power plants, especially those fired by coal, are among the largest stationary sources of NOx emissions. A single coal-fired plant can emit thousands of tons of NOx per year. Controlling these large point sources is more effective than targeting smaller distributed sources, making NOx control systems crucial for power plants. Factors such as these are creating a conducive environment, driving widespread adoption of NOx control systems in power generation & energy.

For a better understanding of the market adoption of the Nitrogen Oxide Control Systems system, the market is analyzed based on its worldwide presence in countries such as North America (The U.S., Canada, and the Rest of North America), Europe (Germany, The U.K., France, Rest of Europe), Asia-Pacific (China, Japan, India, South Korea, Rest of Asia-Pacific), Rest of World. The Asia Pacific region is witnessing rapid growth in the adoption of nitrogen oxide (NOx) control systems across various industries. Several factors are driving this widespread adoption, fueled by increasing urbanization, rising power demand, and growing concerns about the environmental impact of emissions. Governments in the Asia Pacific region are increasingly recognizing the importance of addressing climate change and reducing greenhouse gas emissions. Several countries have implemented policies and initiatives to promote the adoption of clean technologies, including NOx control systems. For instance, Japan's Ministry of Economy, Trade, and Industry (METI) has introduced various subsidies and tax incentives for industries implementing emission control technologies. Similarly, South Korea's Emission Control Technology Development Program aims to support the development and commercialization of advanced emission control systems. Furthermore, the Asia Pacific region is experiencing a surge in power demand due to rapid industrialization and population growth. For instance, according to the International Energy Agency (IEA), the region's electricity demand is expected to grow by nearly 60% by 2040. This increasing demand for power is primarily being met by coal-fired and natural gas-fired power plants, which are significant sources of NOx emissions. To mitigate the environmental impact of these power plants, countries in the region are mandating the installation of NOx control systems. For example, India's Ministry of Environment, Forest, and Climate Change has set stringent NOx emission limits for thermal power plants, driving the adoption of selective catalytic reduction (SCR) and selective non-catalytic reduction (SNCR) systems. Factors such as these are creating favorable tailwinds, supporting the growth trajectory of the Asia Pacific NOx control system throughout the forecast period.

Some of the major players operating in the market include Honeywell International Inc.; CECO ENVIRONMENTAL; John Wood Group PLC; MITSUBISHI HEAVY INDUSTRIES, LTD.; DUCON Environmental; Babcock & Wilcox Enterprises, Inc; Siemens Energy; Phinia Inc.; Yara; and Spraying Systems Co.

1MARKET INTRODUCTION

1.1.Market Definitions
1.2.Main Objective
1.3.Stakeholders
1.4.Limitation

2RESEARCH METHODOLOGY OR ASSUMPTION

2.1.Research Process of the Nitrogen Oxide Control System Market
2.2.Research Methodology of the Nitrogen Oxide Control System Market
2.3.Respondent Profile

3MARKET SYNOPSIS

4EXECUTIVE SUMMARY

5IMPACT OF COVID-19 ON THE NITROGEN OXIDE CONTROL SYSTEM MARKET

6NITROGEN OXIDE CONTROL SYSTEM MARKET REVENUE (USD BN), 2020-2030F.

7MARKET INSIGHTS BY TECHNOLOGY

7.1.Selective Catalytic Reduction (SCR)
7.2.Selective Non-Catalytic Reduction (SNCR)
7.3.Low NOx Burner
7.4.Fuel Reburning

8MARKET INSIGHTS BY APPLICATION

8.1.Power Generation and Energy
8.2.Chemical
8.3.Transportation
8.4.Industrial

9MARKET INSIGHTS BY REGION

9.1.North America
- 9.1.1.The U.S.
- 9.1.2.Canada
- 9.1.3.Rest of North America
9.2.Europe
- 9.2.1.Germany
- 9.2.2.The U.K.
- 9.2.3.France
- 9.2.4.Italy
- 9.2.5.Rest of Europe
9.3.Asia-Pacific
- 9.3.1.China
- 9.3.2.India
- 9.3.3.Japan
- 9.3.4.South Korea
- 9.3.5.Rest of Asia-Pacific
9.4.Rest of the World

10NITROGEN OXIDE CONTROL SYSTEM MARKET DYNAMICS

10.1.Market Drivers
10.2.Market Challenges
10.3.Impact Analysis

11NITROGEN OXIDE CONTROL SYSTEM MARKET OPPORTUNITIES

12NITROGEN OXIDE CONTROL SYSTEM MARKET TRENDS

13DEMAND AND SUPPLY-SIDE ANALYSIS

13.1.Demand Side Analysis
13.2.Supply Side Analysis

14VALUE CHAIN ANALYSIS

15COMPETITIVE SCENARIO

15.1.Competitive Landscape
- 15.1.1.Porters Fiver Forces Analysis

16COMPANY PROFILED

16.1.Honeywell International Inc.
16.2.CECO ENVIRONMENTAL
16.3.John Wood Group PLC
16.4.MITSUBISHI HEAVY INDUSTRIES, LTD.
16.5.DUCON Environmental
16.6.Babcock & Wilcox Enterprises, Inc
16.7.Siemens Energy
16.8.Phinia Inc.
16.9.Yara
16.10.Spraying Systems Co.

17DISCLAIMER

02-2729-4219

+886-2-2729-4219

License/价格

氮氧化物控制系统市场：现况分析与预测（2023-2030）

Nitrogen Oxide Control System Market: Current Analysis and Forecast (2023-2030)

目录

第一章市场介绍

第二章研究方法或前提

第三章市场总结

第 4 章执行摘要

第五章 COVID-19 对氮氧化物控制系统市场的影响

第六章氮氧化物控制系统市场收入，2020-2030

第 7 章技术市场洞察

第 8 章应用市场分析

第九章区域市场分析

第10章氮氧化物控制系统市场动态

第十一章氮氧化物控制系统市场机会

第十二章氮氧化物控制系统市场趋势

第十三章供需分析

第14章价值链分析

第15章比赛场景

第十六章公司简介

第十七章免责声明

TABLE OF CONTENTS