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Market Research Report

Sensors for Trace Contaminant Detection in Air: Technologies & Market

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Sensors for Trace Contaminant Detection in Air: Technologies & Market
Published: May 17, 2019 Content info: 138 Pages
Description

Report Highlights:

The global market for sensors for trace air contaminant detection should grow from $215.8 million in 2017 to $412.4 million by 2022 at a compound annual growth rate (CAGR) of 13.8% for the period of 2017-2022.

Indoor monitoring market for sensors for trace air contaminant detection should grow from $93.4 million in 2017 to reach $174.7 million by 2022 at a CAGR of 13.3% for the period of 2017-2022.

Outdoor monitoring market for sensors for trace air contaminant detection should grow from $82.6 million in 2017 to reach $161.3 million by 2022 at a CAGR of 14.3% for the period of 2017-2022.

Report Scope:

The scope of this report is broad and covers different types of sensor products available in the market and their potential applications. The total market revenue includes sensors (sensor modules integrated in various systems) such as electrochemical sensors, metal oxide sensors, photo ionization detectors and others that help in the detection of trace contaminants in the air. Sensors analyzed in this report include those for trace elements and other inorganic contaminants, volatile organic compounds, biological contaminants and physical contaminants such as dust particles.

The global market for sensors for trace air contaminant detection is segmented by product and pollutant. Revenue forecasts from 2017 to 2022 are given for product and pollutant segments and regional markets with estimated values derived from manufacturers' total revenues.

This report also includes a discussion of major players in each segment and region and the major drivers and regional dynamics of the industry.

The report concludes with a special focus on the vendor landscape and includes detailed profiles of major market vendors.

Report Includes:

  • 46 data tables and 80 additional tables
  • An overview of the global markets and technologies pertaining to sensor modules used in air trace contaminant detection
  • Analyses of global market trends with data from 2016 and 2017, and projections of compound annual growth rates (CAGRs) through 2022
  • Characterization and quantification of market potential for sensor modules used in trace contaminant detection in air market on the basis of product category, pollutants type, geographical regions and application areas
  • Information on market dynamics and growth driving factors such as stricter government regulations, environment protection acts, technological advancements in sensors and adoption of smart air network in manufacturing industries etc.
  • Assessment of the vendor competitive landscape and their market share analysis
  • Company profiles of leading global players, including Analog Devices, Figaro Engineering Inc., Honeywell Sensing and Productivity Solutions, Omron Electronics, Parallax Inc., and Vernier
Table of Contents
Product Code: AVM172A

Table of Contents

Chapter 1: Introduction

  • Study Goals and Objectives
  • Reasons for Doing This Study
  • Scope of Report
  • Information Sources
  • Methodology
  • Geographic Breakdown
  • Analyst's Credentials
  • BCC Custom Research
  • Related BCC Research Reports

Chapter 2: Summary and Highlights

Chapter 3: Market and Technology Background

  • Regulations/Standards
    • World-Class Emissions Standards
    • European Union
    • India
    • China
    • United States
    • Australia
    • Japan
    • Canada
    • South Africa
  • Supply Chain Analysis
    • Suppliers of Sensors for Trace Air Contamination Detection
    • Manufacturers of Sensors for Detecting Trace Contaminant in the Air
    • End Users
  • Market Factors
  • Market Overview
  • Products
    • Indoor Monitoring
    • Outdoor Monitoring
    • Wearables
  • Overview by Pollutant
    • Inorganic Pollutants
    • Organic Pollutants
    • Physical Pollutants
    • Biological Pollutants
  • Regional Analysis
    • North America
    • Asia-Pacific
    • Europe
    • Rest of the World

Chapter 4: Market Breakdown by Product

  • Indoor Monitoring
    • Particle Pollution
    • Gaseous Pollution
    • Biological Pollution
  • Outdoor Monitoring
  • Wearables

Chapter 5: Market Breakdown by Type of Pollutant

  • Inorganic Pollutants
    • Next Generation Air Measurement Technologies
    • Trace Element Contaminants
    • Other Inorganic Contaminants
  • Biological Pollutants
    • Health Effects of Biological Pollutants
  • Organic Pollutants
    • Persistent Organic Pollutants (POPs)
    • Volatile Organic Compounds (VOCs)
  • Physical Pollutants
    • Particulate Matter
    • Other Physical Pollutants
  • Other Pollutants

Chapter 6: Market Breakdown by Region

  • North America
    • United States
    • Canada
  • Europe
    • United Kingdom
    • France
    • Germany
    • Spain
    • Rest of Europe
  • Asia-Pacific Region
    • China
    • India
    • Japan
    • Australia
    • Rest of Asia-Pacific
  • Rest of the World (RoW)
    • Latin America
    • Middle East and South Africa

Chapter 7: Market Drivers

  • Increasing Levels of Air Pollution
  • Government Initiatives for Environment Monitoring
  • Ambitious Satellite Program
    • Under2 Coalition
    • India National Clean Air Programme
    • Unmask My City
    • U.S.-China Green Ports and Vessels Initiative
    • Clean Air Nation Movement
  • Technological Advancements in Sensors
  • Adoption of Smart Air Network in Manufacturing Industries

Chapter 8: Company Profiles

  • ADAFRUIT
  • ALPHASENSE
  • AMPHENOL ADVANCED SENSORS
  • AMS AG
  • ANALOG DEVICES
  • BLUESENS GAS SENSOR GMBH
  • BRIGHT SENSORS SA
  • CARLO GAVAZZI U.K. LTD.
  • DEXTER RESEARCH CENTER, INC.
  • DFROBOT
  • FIGARO ENGINEERING INC.
  • GHI ELECTRONICS
  • HONEYWELL SENSING AND PRODUCTIVITY SOLUTIONS
  • INTEGRATED DEVICE TECHNOLOGY, INC.
  • ION SCIENCE
  • MIKROELEKTRONIKA
  • MURATA MANUFACTURING CO. LTD.
  • NEW COSMOS ELECTRIC CO. LTD.
  • OMRON ELECTRONICS
  • ORION SRL (MERGED WITH UNITEC)
  • PARALLAX INC.
  • PURPLEAIR
  • SENSIRION AG
  • SGX SENSORTECH
  • SIEMENS AG
  • SPEC SENSORS
  • SURREY SENSORS LTD.
  • UHOO
  • VERNIER
  • ZHENGZHOU WINSEN ELECTRONICS TECHNOLOGY CO. LTD.

List of Tables

  • Summary Table: Global Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 1: World-Class Emissions Standards
    • Table 2: Proposed Reduction Targets in EU28, Compared to 2005
    • Table 3: European Union Air Quality Standards
    • Table 4: AQI Categories, Pollutants and Health Breakpoints
    • Table 5: Defined Health Impacts Associated with AQI Values
    • Table 6: Ambient Air Quality Standards in China
    • Table 7: Additional Pollutant Quality Standards Defined in China
    • Table 8: National Ambient Air Quality Standards
    • Table 9: Standards and Goal for Pollutants in Australia
    • Table 10: Environmental Quality Standards in Japan
    • Table 11: Canadian Ambient Air Quality Current Standards and Projections
    • Table 12: National Ambient Air Quality Standards in South Africa
    • Table 13: Global Suppliers of Sensors for Trace Air Contamination Detection
    • Table 14: Manufacturers of Sensors for Detecting Trace Contaminant in the Air
    • Table 15: National Ambient Air Quality Standards for Six Principal Pollutants
    • Table 16: Air Pollutants and Their Effects on the Human Body
    • Table 17: Global Market Shares of Sensors for Trace Air Contamination Detection, by Product, 2016, 2017 and 2022
    • Table 18: Important Indoor Air Quality Monitoring Parameters with Sensor Technologies
    • Table 19: Annual Deaths from Outdoor Air Pollution, by Region, 2010 and 2016
    • Table 20: CO2 Concentrations in the Atmosphere, 2000-2016
    • Table 21: Methane Emissions, 1990-2030
    • Table 22: Global Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 23: Global Market for Indoor Monitoring Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 24: Primary Indoor Pollutants and Key Sources
    • Table 25: Different Connectivity Modes for Air Quality Detection Sensors
    • Table 26: Assumed PM2.5 Exposure Level Values for Households Primarily Dependent on Polluting Technologies and Fuels for Cooking
    • Table 27: Recommended Levels of Exposure
    • Table 28: Operating Parameters of Solid-state Gas Sensors Technical Specification for Indoor Monitoring
    • Table 29: Different Outdoor Air Pollutants and Their Impacts on Human Health
    • Table 30: Global Market for Outdoor Monitoring Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 31: Key Outdoor Air Pollutants
    • Table 32: Online Tools Deployed for Cost-effective Outdoor Air Quality Monitoring and Research
    • Table 33: Global Market for Wearable Monitoring Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 34: Global Market for Sensors for Trace Air Contaminant Detection, by Type of Pollutant, Through 2022
    • Table 35: Air Pollutants, Their Sources, and Likely Health Impacts
    • Table 36: Global Market for Sensors for Trace Inorganic Air Pollutants Detection, by Region, Through 2022
    • Table 37: Environmental Standard Concentrations and Threshold Limit Values of Air Pollutants
    • Table 38: Important Terms Describing Atmospheric Particles
    • Table 39: Relative Contribution of Radiatively Active Gases to Global Temperature Increases
    • Table 40: The Main Sources of Trace Element Contamination
    • Table 41: Trace Elements and the Potential Impacts of Replenishment, Prophylaxis and Pharmacological Effects
    • Table 42: Summary of Potential Sensor Technologies That Can Address Environmental Monitoring Needs
    • Table 43: Effects of Ammonia Exposure (Without Protective Clothing)
    • Table 44: Requirements for Ammonia Analysis Equipment (Sensors) in Different Application Areas
    • Table 45: Global Market for Biological Pollutants Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 46: Global Market for Organic Pollutants Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 47: Persistent Organic Pollutants (POPs)
    • Table 48: Common Sources of Volatile Organic Compounds (VOCs)
    • Table 49: Global Market for Physical Pollutants Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 50: 24-Hour PM2.5 Standard
    • Table 51: 24-Hour PM10 Standard
    • Table 52: Particulate Matter (PM) Sensors
    • Table 53: Global Market for Other Pollutants Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 54: Global Market for Sensors for Trace Air Contaminant Detection, by Region, Through 2022
    • Table 55: North American Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 56: U.S. Energy-Related CO2 Emissions, 2016-2018
    • Table 57: North American Market for Sensors for Trace Air Contaminant Detection, by Type of Pollutant, Through 2022
    • Table 58: Typical Pollutants of Interest
    • Table 59: Canadian Ambient Air Quality Standards, 2015-2025
    • Table 60: Annual Deaths from Outdoor Air Pollution in Europe, by Country, 2010 and 2016
    • Table 61: EU Standards on Air Quality
    • Table 62: European Union Targets for Greenhouse Gas Emissions, 2020-2050
    • Table 63: European Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 64: Road Traffic in Great Britain, by Vehicle/Road Type, 2017
    • Table 65: Percentage Share of Carbon Emissions in the U.K., by Sector, 2015
    • Table 66: Number of Deaths Blamed on Outdoor Particulate Matter and Ozone Pollution in the U.K., 2006-2016
    • Table 67: Total Suspended Particles Classification of the Sub-Sectors with the Highest Emission Levels in 2015
    • Table 68: Percentage of Urban Population in Germany Exposed to O3 Concentrations Above EU Standards, 2011-2015
    • Table 69: European Market for Sensors for Trace Air Contaminant Detection, by Type of Pollutant, Through 2022
    • Table 70: Percentage of Urban Population in Spain Exposed to Pollution Concentrations Above EU Standards, 2012-2015
    • Table 71: Percentage of Urban Population in Switzerland Exposed to O3 Air Concentrations Above EU Standards, 2011-2015
    • Table 72: Percentage of Urban Population in Hungary Exposed to Air Pollution Concentrations Above EU Standards, 2013-2015
    • Table 73: Asia-Pacific Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 74: Premature Deaths from Outdoor Air Pollution in Asia-Pacific, by Country, 2016
    • Table 75: Current Ambient Air Quality Primary Standards in China
    • Table 76: Asia-Pacific Market for Sensors for Trace Air Contaminant Detection, by Type of Pollutant, Through 2022
    • Table 77: Number of Deaths per Day from Ambient Air Pollution in India, 1990 and 2015
    • Table 78: Environmental Quality Standards in Japan
    • Table 79: Emission of Air Pollutants in Australia, 2005-2016
    • Table 80: Ambient Air Quality Targets in Singapore, 2020
    • Table 81: ROW Market for Sensors for Trace Air Contaminant Detection, by Product, Through 2022
    • Table 82: ROW Market for Sensors for Trace Air Contaminant Detection, by Type of Pollutant, Through 2022
    • Table 83: CO2 Emissions in Brazil, 2015-2016
    • Table 84: Air Quality Standards in Mexico
    • Table 85: Average Annual Population-Weighted PM2.5, by Country, 2014-2016
    • Table 86: Air Pollution Levels in the Middle East, by Country, 2015
    • Table 87: Total GHG Emissions Globally, by Year, 2015-2030
    • Table 88: Government Initiatives for Environment Monitoring
    • Table 89: Components of Wireless Sensor Networks Used in Manufacturing Industries
    • Table 90: Adafruit: Product Portfolio
    • Table 91: Alphasense: Product Portfolio
    • Table 92: Amphenol Advanced Sensors: Product Portfolio
    • Table 93: AMS AG: Product Portfolio
    • Table 94: AMS AG: Recent Developments, 2015-August 2018
    • Table 95: Analog Devices: Product Portfolio
    • Table 96: Bluesens Gas Sensor GmbH: Product Portfolio
    • Table 97: Bright Sensors SA: Product Portfolio
    • Table 98: Carlo Gavazzi U.K. Ltd.: Product Portfolio
    • Table 99: Dexter Research Center, Inc.: Product Portfolio
    • Table 100: DFRobot: Product Portfolio
    • Table 101: Figaro Engineering Inc.: Product Portfolio
    • Table 102: GHI Electronics: Product Portfolio
    • Table 103: Honeywell Sensing and Productivity Solutions: Product Portfolio
    • Table 104: Integrated Device Technology, Inc.: Product Portfolio
    • Table 105: Integrated Device Technology, Inc.: Recent Developments, 2015-August 2018
    • Table 106: ION Science: Product Portfolio
    • Table 107: MikroElektronika: Product Portfolio
    • Table 108: Murata Manufacturing Co. Ltd.: Product Portfolio
    • Table 109: New Cosmos Electric Co. Ltd.: Product Portfolio
    • Table 110: Omron Electronics: Product Portfolio
    • Table 111: Orion SRL: Product Portfolio
    • Table 112: Parallax Inc.: Product Portfolio
    • Table 113: PurpleAir: Product Portfolio
    • Table 114: PurpleAir: Recent Developments, 2015-August 2018
    • Table 115: Sensirion AG: Product Portfolio
    • Table 116: Sensirion AG: Recent Developments, 2015-August 2018
    • Table 117: SGX Sensortech: Product Portfolio
    • Table 118: SGX Sensortech: Recent Developments, 2015-August 2018
    • Table 119: Siemens AG: Product Portfolio
    • Table 120: SPEC Sensors: Product Portfolio
    • Table 121: Surrey Sensors Ltd.: Product Portfolio
    • Table 122: Uhoo: Product Portfolio
    • Table 123: Uhoo: Recent Developments, 2015-August 2018
    • Table 124: Vernier: Product Portfolio
    • Table 125: Zhengzhou Winsen Electronics Technology Co. Ltd.: Product Portfolio

List of Figures

  • Summary Figure: Global Market for Sensors for Trace Air Contaminant Detection, by Product, 2016-2022
    • Figure 1: Supply Chain for Sensors for Trace Air Contaminant Detection
    • Figure 2: Global Market Shares of Sensors for Trace Air Contamination Detection, by Product, 2016 and 2022
    • Figure 3: Annual Deaths from Outdoor Air Pollution, by Region, 2010 and 2016
    • Figure 4: Overview of Covered Pollutants
    • Figure 5: CO2 Concentrations in the Atmosphere, 2000-2016
    • Figure 6: Methane Emissions, 1990-2030
    • Figure 7: Global Market Shares of Sensors for Trace Air Contamination Detection, by Region, 2016 and 2022
    • Figure 8: Classification of Sensor Products
    • Figure 9: Types of Indoor Air Pollution
    • Figure 10: Block Diagram of Indoor Air Quality Monitoring System
    • Figure 11: Cost-Effective PM2.5 Methods to Detect and Monitor Wildland Fire Smoke
    • Figure 12: Block Diagram of a Wearable Air Quality Sensor
    • Figure 13: Types of Pollutants
    • Figure 14: Aspects of Particle Reactions and Effects in the Atmosphere
    • Figure 15: U.S. Energy-Related CO2 Emissions, 2016-2018
    • Figure 16: Annual Deaths from Outdoor Air Pollution in Europe, by Country, 2010 and 2016
    • Figure 17: Road Traffic in Great Britain, by Vehicle/Road Type, 2017
    • Figure 18: Percentage Share of Carbon Emissions in the U.K., by Sector, 2015
    • Figure 19: Number of Deaths Blamed on Outdoor Particulate Matter and Ozone Pollution in the U.K., 2006-2016
    • Figure 20: Percentage of Urban Population in Germany Exposed to O3 Concentrations Above EU Standards, 2011-2015
    • Figure 21: Percentage of Urban Population in Spain Exposed to Pollution Concentrations Above EU Standards, 2012-2015
    • Figure 22: Percentage of Urban Population in Switzerland Exposed to O3 Air Concentrations Above EU Standards, 2011-2015
    • Figure 23: Percentage of Urban Population in Hungary Exposed to Air Pollution Concentrations Above EU Standards, 2013-2015
    • Figure 24: Premature Deaths from Outdoor Air Pollution in Asia-Pacific, by Country, 2016
    • Figure 25: Emission of Air Pollutants in Australia, 2005-2016
    • Figure 26: CO2 Emissions in Brazil, 2015-2016
    • Figure 27: Average Annual Population-Weighted PM2.5, by Country, 2014-2016
    • Figure 28: Different Types of Air Pollutants
    • Figure 29: Total GHG Emissions Globally, by Year, 2015-2030
    • Figure 30: Major Focus Areas of EPA and Aeroqual for Air Sensor Advancements
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