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世界の防爆照明用LED電球の市場予測 2016-2026年

LED-Based Luminaires Used in Explosion-Proof Lighting

Global Market Review and Forecast 2016-2026

 

出版社 出版年月電子媒体価格ページ数
ElectroniCast Consultants
エレクトロニキャスト社
2017年9月US$3,990
企業ライセンス (PDF+PPT+Excel)
317

サマリー

米国調査会社エレクトロニキャスト社の調査レポート「世界の防爆照明用LED電球の市場予測 2016-2026年」は、世界の防爆照明用のLED電球の市場を予測している。世界の70社以上の企業について記載している。

製品カテゴリ

  • スポットライト、投光器、一般電球
  • 直管形
  • 小型ポータブル
  • 特殊用途、パネル、その他

サブ用途

  • 発電所、ポンプ場、変電所
  • 軍事基地、空港、その他の交通施設
  • ガソリンスタンド、塗装ブース、その他の商業用/産業用施設など
  • 油田、精油所、洋上石油プラットフォーム、石油タンク、トンネル、波止場、鉱山など

目次(抜粋)

  • 防爆照明用途のLED電球の世界市場の概観
  • 防爆照明用途のLED電球の製品タイプ毎の市場予測
  • 防爆照明用途のLED電球の技術の概要

 

10-year Market Forecast

This is the ElectroniCast global market forecast of LED-based luminaires (light fixtures with lamps/light source) used in Explosion-Proof Lighting.  Over 70 companies are listed.

One-Fee Policy    

All employees of the client company/organization may use this report worldwide at the consultant service subscription fee shown above.

Report Description

This is the ElectroniCast analysis and forecast of global market consumption of LED-based luminaires (light fixture with lamp/light source) used in explosion-proof lighting.

This market forecast of the American, European/Middle Eastern and African (EMEA), and Asia Pacific (APAC) regional consumption is presented for selected LED-based lamps in selected applications, which require explosion-proof lighting solutions.

For the purposes of this study, ElectroniCast defines explosion-proof lighting luminaires, which are certified in accordance with and compliant to International regulative and safety standard bodies for use in areas where flammable petrochemical vapors and/or pulverized dust exist or have the potential to exist.

The information is presented in easy-to-follow illustrations and text.  The LED explosion-proof lighting market environment is discussed.  LED lighting technology overviews, trends and analysis are presented.  List and website addresses of over 70-competitors in the Explosion-Proof LED Luminaire marketplace.

Working environments that contain explosive gases or dust are extremely volatile environments. All it takes is a single spark to cause an explosion. A variety of lights are available that are considered explosion proof lighting because they prevent any possible ignition sources from being exposed to the air.

Lights are a common cause of explosion ignition. Low energy light fittings can help to prevent explosions because they do not produce enough energy to ignite source materials. This intrinsically safe equipment, though, can sometimes provide low quality lighting.

In the process of this market research project, in addition to interviewing existing customers and potential customers of LED-based explosion-proof lighting, ElectroniCast Consultants also studied lighting manufactures with various ranges of hazardous area lighting products, which are suited to use in high-risk areas. The lighting fixtures are designed for situations where explosive gases and dusts are found, providing suitable lighting without enabling a risk of explosion.

The light emitting diode (LED) market, despite exciting innovative devices driven by technological advances and ecological/energy-saving concerns, still face challenges in overcoming performance/price limitations and in attracting widespread consumption.

This report, by ElectroniCast Consultants, provides the research findings of our study of the global consumption of Light Emitting Diode Luminaires, which are Explosion-Proof Lighting applications.

LED Level Quantified in the ElectroniCast Study            

Below, are five levels (or “food chain”) pertaining to the LED marketplace.  For the purposes of this ElectroniCast study, we quantify and provide a market forecast for Level 5.  ElectroniCast Note: Our previous multiple-client reports in this area covered Level 4.

- Level 1 - The bare chip or die

- Level 2 - The packaged LED chip

- Level 3 – LED array, optics, boards (PCB), heat sink, driver, other components

- Level 4 – Lamp/Light source

Level 5 – Luminaires (light fixture, initial lamp/light source, inclusive fittings/brackets)

      

The following regions are quantified in this study report:

  • America (North, Central and South America)
  • EMEA (Europe, Middle East and Africa)
  • APAC (Asia Pacific)

10-Year Market Forecast

This report provides the market review and forecast (2016-2026) by the following functions:

  • Consumption Value (US$)
  • Quantity (number/units) – (Million)
  • Average Selling Prices ($, each)

During the market research process, ElectroniCast analysts perform interviews with authoritative and representative individuals in the LED and lighting industry, plus – R&D and industrial/factory/manufacturing, from the standpoint of both suppliers and users of explosion-proof and other harsh environment LED lighting products.

Market Forecast Product Categories      

This market forecast of the worldwide consumption is presented for four (4) major luminaire-type categories, as shown below:

  • Spot, Flood and General-Area
  • Linear: Tube and String/Strip
  • Small portable-type: Flash lights, wearable headlamp
  • Specialty, Panel and Miscellaneous

Market Forecast Sub-Application Categories   

This market forecast of the worldwide consumption for LED Luminaires used in explosive-proof lighting is presented for four (4) major end-user group (sub-application) categories, as shown below:

  • Power Plants, Pumping Stations, Substations
  • Military Bases, Airports, Other Transportation Facilities                               
  • Gas Stations, Paint-Spray Booths, Other Commercial/Industrial, Other/Non-Specific
  • Oil Fields, Oil Refineries, Offshore Oil Platforms, Oil Tanks, Tunnels, Wharf, Mining and Other Similar

Market Dynamics  

The study process by ElectroniCast Consultants takes into account the following points:

  • Standards (including general regulations & standards, environmental issues, etc.)
  • Policies and schemes for promoting the penetration of LED lighting
  • Industry trends in LED lighting fixtures
  • Distribution/Sales Channel
  • Competitive environment is considered / Intellectual property and patents

Since the light output of individual light-emitting diodes (LEDs) is small compared to incandescent and compact fluorescent lamps, multiple diodes are often used together.  With continuing improvement of diode technology and packaging technology (for example: Remote Phosphor), high power LEDs with higher lumen output is enabling the replacement of other lamp technology with LED lamps.   

Luminaires are lighting fixtures complete with the light source or lamp, the reflector for directing the light, an aperture (with or without a lens), the outer shell or housing for lamp alignment and protection, an electrical ballast (if required), and connection to a power source, and usually a socket to hold the lamp and allow for its replacement.  Explosion-proof LED lighting solutions are designed to be extremely resistant to dust, humidity, chemicals, mechanical forces and extreme environmental temperatures.

Explosion-proof LED lighting solutions offer improved vision and safety in industrial areas where the danger of explosion is higher due to the nature of the activity.  Explosion-proof products are used on a large scale in mines, oil fields and also in various industrial and commercial, military, and other applications where highly inflammable and explosive substances are present.

The risk of explosion in some work environments requires the need to use specific solutions. Specially designed explosion proof LED lighting provides is often underestimated. Mixtures of gas, air or dust can actually cause life-threatening explosions and cause extensive harm to your employees and the plant. The incorrect assumption is often made that the danger of explosion is more or less exclusive to the chemical industry. Dust from timber, animal feed, food-stuffs or plastics can also cause an explosion. Unsafe lighting is one of the most common potential sources of ignition.

Sample list of typical applications:

  • Petroleum refineries and gasoline storage areas
  • Aircraft hangars and fuel servicing areas
  • Grain elevators, flour and feed mills
  • Producers of chemicals, plastics, medicines and fireworks
  • Coal preparation plants
  • Textile mills, cotton gins; Saw mills and lumber yards
  • Motion picture sets
  • Many Others

Market Research Methodology

Market analysis and technology forecasting are complex tasks. Any predictions of the shape and trends of technology and economic movement start from the notion that the germ of what will be important tomorrow is present, although smaller or larger or in a different form, in our environment today. However, taking as a basis for a prediction the assumptions of current, conventional belief creates a set of preconceived notions that can lead to serious mistakes. ElectroniCast, instead, looks to the basic driving forces.

Information Base

This study is based on analysis of information obtained continually over the past several years, but updated through the beginning of September 2017.  During this period, ElectroniCast analysts performed interviews with authoritative and representative individuals in the LED manufacturing (materials, integrated circuits/circuit boards, packaging, devices, connectors/pins/end-caps, plastic, aluminum and glass manufacturers, associated parts/pieces, fittings/fixtures) and military/aerospace, harsh environment concerns, painting (paint spray booths), oil/gas and mining, power generation/nuclear, industrial/manufacturing, mass transit authorities, transportation/ infrastructure, R&D, gas stations/service stations (lighting distributors), government, and other. The interviews were conducted principally with:

  • Engineers, marketing personnel and management at manufacturers of LEDs (chips, components, lamps and fixtures) as well as other technologies
  • Design group leaders, engineers, marketing personnel and market planners at major users and potential users of LEDs
  • Other industry experts, including those focused on standards activities, trade associations, and investments

The interviews covered issues of technology, R&D support, pricing, contract size, reliability, documentation, installation/maintenance crafts, standards, supplier competition and other topics.  Customers and distributors were interviewed, to obtain their estimates of quantities received and average prices paid.  Customer estimates of historical and expected near term future growth of their application are obtained. Their views of use of new technology products were obtained.

The analyst then considered customer expectations of near term growth in their application, plus forecasted economic payback of investment, technology trends and changes in government regulations and funding/tax-break legislation/rules in each geographical region, to derive estimated growth rates of quantity and price of each product subset in each application. These forecasted growth rates are combined with the estimated baseline data to obtain the long-range forecasts at the lowest detailed level of each product and application.

A full review of published information (secondary research) was also performed to supplement information obtained through primary research (interviews). The following sources were reviewed:

  • Professional technical journals and papers
  • Trade press articles
  • Technical conference proceedings
  • Product literature
  • Company profile and financial information
  • Additional information based on previous ElectroniCast market studies
  • Personal knowledge of the research team

In analyzing and forecasting the complexities of worldwide markets for light emitting diode products, it is essential that the market research team have a good and a deep understanding of the technology and of the industry. ElectroniCast consultants who participated in this report were qualified.

Bottom-up Methodology    

ElectroniCast forecasts, as illustrated in the forecast data structure, are developed initially at the lowest detail level, then summed to successively higher levels. The background market research focuses on the amount of each type of product used in each application in the base year (last year: 2016), and the prices paid at the first transaction from the manufacturer. This forms the base year data.

ElectroniCast analysts then forecast the growth rates in component quantity use in each application, along with price trends, based on competitive, economic and technology forecast trends, and apply these to derive long term forecasts at the lowest application levels. The usage growth rate forecasts depend heavily on analysis of overall end user trends toward equipment usage and economic payback.

About ElectroniCast

ElectroniCast, founded in 1981, specializes in forecasting technology and global market trends in fiber optics communication components and devices, as well providing market data on light emitting diodes used in lighting.

As an independent consultancy we offer multi-client and custom market research studies to the world's leading companies based on comprehensive, in- depth analysis of quantitative and qualitative factors. This includes technology forecasting, markets and applications forecasting, strategic planning, competitive analysis, customer-satisfaction surveys and marketing/sales consultation. ElectroniCast, founded as a technology-based independent consulting firm, meets the information needs of the investment community, industry planners and related suppliers.

Proprietary Statement

All data and other information contained in this data base are proprietary to ElectroniCast and may not be distributed or provided in either original or reproduced form to anyone outside the client's internal employee organization, without prior written permission of ElectroniCast.

ElectroniCast, in addition to multiple-client programs, conducts proprietary custom studies for single clients in all areas of management planning and interest.  Other independent consultants, therefore, are considered directly competitive.  ElectroniCast proprietary information may not be provided to such consultants without written permission from ElectroniCast Consultants



目次

1.         Executive Summary

1.1       Global Overview 
1.2      Bare (Unpackaged) LED Chips – Overview  
1.3      Barriers to Growth in the United States Military/Government Sector    

2.         LED-based Luminaires in Explosion Proof Lighting Market Forecast by Product Type

2.1      Overview 
2.2      Spot, Flood and General-Area LED Luminaires 
2.3      Linear Tube, String/Strip LED Luminaires  
2.4       LED-based Flashlights and Wearable Headlamps (Luminaires) 
2.5                      LED-based Specialty, Panel and Miscellaneous Luminaires             

3.         LED-based Luminaires in Explosion Proof Lighting Market Forecast by Application

Oil Fields, Oil Refineries, Offshore Oil Platforms, Oil Tanks, Tunnels, Wharf, Mining and Other Similar
Power Plants, Pumping Stations, Substations
Military Bases, Airports, Other Transportation Facilities
Gas Stations, Paint-Spray Booths, Other Commercial/Industrial, Other/Non-Specific

4.       LEDs – Technology Overview

5.         ElectroniCast Market Research Methodology                                   

6.         Definitions and Standards

6.1     Acronyms, Abbreviations, and General Terms
6.2       Lighting Standards and Protocols

7.         ElectroniCast Market Forecast Data Base Explanation   

7.1       Overview 
7.2       Tutorial 

Addendum            Excel – ElectroniCast Global Market Forecast Worksheets and Competitor List/Websites
Addendum             PowerPoint – Market Forecast Data Figures (Bar Charts and Line Charts)


List of Tables

1.1.1   Selected Competitors: Explosion-Proof Lighting (over 70 companies listed)  
1.1.2   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region ($Million)  
1.1.3   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Application ($Million)  
1.1.4   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Product-Type ($Million)    
1.1.5   ANSI/NFPA Areas Description 
1.1.6   Typical Luminous Efficacies for Traditional and LED Sources    
2.1.1   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Product-Type ($Million) 
2.1.2   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Product-Type (Qty, Million)
2.1.3   LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Product-Type (ASP, $, each)
2.2.1   Spot, Flood, General-Area LED Luminaires Used in Explosion Proof Lighting Global Forecast, Region ($Million)   
2.2.2   Spot, Flood, General-Area LED Luminaires Used in Explosion Proof Lighting Global Forecast, By Region (Qty)
2.2.3   Spot, Flood, General-Area LED Luminaires Used in Explosion Proof Lighting Global Forecast, By Region (ASP $)
2.3.1   Linear Tube LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, Region ($Million)    
2.3.2   Linear Tube LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (Qty)      
2.3.3   Linear Tube LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (ASP $)
2.3.4   Calculation of the Cost of Manufacturing Facility Downtime
2.3.5   Comparison of Lighting Technologies  
2.4.1   Flashlight LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region ($Million) 
2.4.2   Flashlight LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (Quantity) 
2.4.3   Flashlight LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (ASP $)    
2.5.1   Special/Panel LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, Region ($Million) 
2.5.2   Special/Panel LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (Qty)
2.5.3   Special/Panel LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Region (ASP $)
3.1      LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Application ($Million)   
3.2      LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Application (Quantity)
3.3      LED Luminaires Used in Explosion Proof Lighting Global Consumption Forecast, By Application (ASP $)
3.4      LED Luminaires Used in Explosion Proof Lighting America Consumption Forecast, By Application ($Million)
3.5      LED Luminaires Used in Explosion Proof Lighting America Consumption Forecast, By Application (Quantity)
3.6      LED Luminaires Used in Explosion Proof Lighting America Consumption Forecast, By Application (ASP $)
3.7      LED Luminaires Used in Explosion Proof Lighting EMEA Consumption Forecast, By Application ($Million)
3.8      LED Luminaires Used in Explosion Proof Lighting EMEA Consumption Forecast, By Application (Quantity) 
3.9      LED Luminaires Used in Explosion Proof Lighting EMEA Consumption Forecast, By Application (ASP $)
3.10    LED Luminaires Used in Explosion Proof Lighting APAC Consumption Forecast, By Application ($Million) 
3.11     LED Luminaires Used in Explosion Proof Lighting APAC Consumption Forecast, By Application (Quantity)
3.12     LED Luminaires Used in Explosion Proof Lighting APAC Consumption Forecast, By Application (ASP $) 
3.13    List of Countries in the APAC Region
4.1      LED Color Variety – Selected Examples 
4.2      LED Color Chart      


List of Figures


    Product Life Cycle (PLC)                                                                                                                      
    Paint Booth Lighting    

1.1.3   Explosion Proof LED Drop-Light/Trouble Light                                                                
1.1.4   Explosion Proof LED Signal/Warning Lights                                                        
1.1.5   Explosion Proof LED Lighting
1.1.6   LED Lamp/Fixture for Industrial and Hazardous Environments                                                       
1.2.1   Diagram of a typical LED chip     
1.2.2   Diagram of a typical LED chip       
1.2.3   LED Chip Cross-Sectional Structure                                                        
1.2.4   Chip On Glass Cross-Sectional Structure                                                                       
1.2.5   ESD Protection Diodes 
1.2.6   Electrostatic Discharge Example
1.2.7   Chip-on-Board LED Technology        
1.2.8   Single-die LED: 1000 lm at 100 lm/W at 3A                                                                                  
1.2.9   Four-die LED with Primary Optics    
1.2.10                    Next Generation of High-Power
1.2.11                    LED Packaged Chip 
1.2.12  LED Packaged Chip        
1.2.13                    LED Packaged Chip Surface Mount Variations   
1.2.14                    LED Packaged Chip 
1.2.15                    High Brightness LED Packaged Chip 
1.2.16                    Surface Mounted Device (SMD) LED 
1.2.17                    Chip-On-Board and Multi-Chip On Board (COB/MCOB) LED  
2.1.1   Hazardous Location Lighting (Class 1, Division 2) 300 Watts - 60 LEDS - Tripod Mount 
2.2.1   General Service LED-based Lamp (A-Style Bulb Category) 
2.2.2   Flame-Proof Explosion- Proof Luminaries 
2.2.3   Low Profile General Area Lamp
2.2.4   LED Explosion Proof General-Area Light 
2.2.5   LED Explosion Proof Gas Station Lights 
2.3.1                     LED-Based Linear Tube Lamp DIP Technology with Metal End-Caps (T8 Tube) 
2.3.2   LED-Based Linear Tube Lamp SMD Technology with Metal End-Caps (T8 Tube) 
2.3.3   LED-Based Linear Lamp Chip-on-Board (COB) Technology (Linear Lamp) 
2.3.4   LED Linear Tubes in Explosion-Proof Fixtures
2.3.5   Portable Explosion Proof LED Linear Tube Lighting
2.4.1   Performance Intrinsic Helmet Light
2.4.2                     Explosion Proof LED Flashlight
2.4.3   Explosion Proof LED Flashlight                                                                                               
2.4.4   Cordless, Water-Proof, Explosion-Proof Miners Headlamp   
2.4.5                     Street With No Illumination
2.4.6   Street Illuminated with HID Flashlight 
2.4.7   Chromaticity Limits for NVIS Colors, NVIS White and NVIS Blue           
2.4.8   NVIS Response Curves
2.4.9   NVIS Colors Allowed in a “Class A” Cockpit
2.4.10                    NVIS Colors: Type I Class B     
2.4.11  NVIS Green A Flip Filter Hood for Flashlight   
2.5.1   Flood Light – Specialty Lighting             
2.5.2   Mine Explosion Proof Outdoor Light 
2.5.3   LED Luminaire for Hazardous Areas  
2.5.4   LED Luminaire for Mining and Heavy Industrial Applications   
3.1      Spray-Paint Booths/Facilities 
3.2      Number of Nuclear Reactors – Worldwide   
3.3      LED Lighting Fixture – Power Plant Installation   
3.4      Explosion Proof LED Lighting for Oil Drilling Rigs, Oil, Gas Production Platforms
3.5     Explosion Proof LED Lighting in a Tunnel      3.6     18W 36W LED Explosion Proof Lamp 
3.7      Explosion Proof Enclosure 
3.8      Factory-sealed LED Luminaire 
3.9      Explosion Proof LED Light for Offshore Structures
3.10    LED-Based Explosion Proof Main Marine Lantern  
3.11    Offshore Platform  
4.1      Green light emission from RPCVD p-GaN layers grown on MOCVD                                                       
4.2      ATEX & IECEx Certified Explosion-proof LED Light
4.3      Highest-Performing Single-Die LED 
4.4      LEDs on a Metal Core Linear Flexible Printed Circuit Board
4.5      LED Chromatic Chart   
4.6     Evolution of Research Emphasis During Technology Life Cycle   
4.7      Wire-Bondable Silicon ESD Diode Chip in Gel-Packs 
4.8      LED Chip: Metal Layer (Thin Film Technology)
4.9       AC LED Technology on a Wafer  
4.10    UV LED Chip Packages (Sample)  
4.11    Fully Printed Halide Perovskite LEDs with Silver Nanowire Electrodes
4.12    Ultra High Bright LED Chip    
4.13     LED Chip Design with Copper Alloy Thermal Conductivity 
4.14    LED Chip Design – Sapphire vs. Copper Alloy  
4.15     Ultra-Thin LED  
4.16    Solid-State Lighting LED  
4.17    LED Module with High Light Quality
4.18    LED Module with Low-Profile Rectangular Shape
4.19    Phosphor Technology: Thin Film Flip Chip (TFFC) technology
4.20    Next-Generation Light Emitting Diode Module 
4.21     4-Leaded RGB LED 
4.22    Basic Structure of a Deep-UV Light-Emitting Diode 
4.23     Vertically Conducting Advanced LED Structure
4.24    AlGaInP LED Efficacy 
4.25     Red Nitride Phosphors     
4.26    World's First 70mW UV-C LED    
4.27    DUV-LED  (Surface mount devices / SMDs)  
5.1      ElectroniCast Market Research & Forecasting Methodology 

 

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プレスリリース

[プレスリリース原文]

LED Explosion Proof Lighting Market Forecast

 

10-Year Market Forecast – Explosion-proof LED lighting Fixtures to reach $787.8 million in 2026

 

Aptos, CA (USA) – September 5, 2017  -- ElectroniCast Consultants, a leading market research consultancy, today announced the release of their market forecast study of the worldwide use of light emitting diode-lighting (LED) luminaries (fixtures with lamp/light source) in Explosion-Proof Lighting.

According to the ElectroniCast report, last year (2016), the global consumption value of LED-based luminaires used in explosion-proof lighting reached $668.6 million.  The consumption (use) value is forecast to increase at an average annual rate of 2.15 percent during the 1st-half of the forecast period (2016-2021) to reach $743.6 million in the year 2021, and then at a slower annual pace (1.16%) during the 2nd-half (2021-2026), to reach $787.7 million in 2026. The consumption value is forecast to increase with much faster rising quantity growth slightly offset by declining average selling prices.

ElectroniCast defines explosion proof lights (also known as hazardous location lighting and intrinsically safe lights) as lighting products, which are certified in accordance with and compliant to International regulative and safety standard bodies for use in areas where flammable petrochemical vapors and/or pulverized dust exist or have the potential to exist.

Unsafe lighting is one of the most common potential sources of ignition.  Working environments that contain explosive gases or dust are extremely volatile environments. All it takes is a single spark to cause an explosion. A variety of lights are available that are considered explosion proof lighting because they prevent any possible ignition sources from being exposed to the air.

Low energy light fittings can help to prevent explosions because they do not produce enough energy to ignite source materials. This intrinsically safe equipment, though, can sometimes provide low quality lighting. 

In the process of this market research project, in addition to interviewing existing customers and potential customers of LED-based explosion-proof lighting, ElectroniCast Consultants also studied over 70 lighting manufactures with various ranges of hazardous area lighting products, which are suited to use in high-risk areas.

The market forecast is also segmented into the following product-type:

  • Spot, Flood and General-Area
  • Linear: Tube and String/Strip
  • Small portable-type: Flash lights, wearable head-light
  • Specialty, Panel and Miscellaneous

The Specialty, Panel and Miscellaneous category is forecast to increase at the fastest pace during the 1st-half of the forecast (2016-2021) with an average annual growth rate of 12.85 percent.  “This relatively fast growth is mainly attributed to the fact that we expect manufactures to react and “design-in” a LED-based solution to a lighting situation already served by legacy (incumbent) technology,” according to the market study.

According to ElectroniCast, LED luminaires used in explosion-proof lighting to reach $787.7 million in 2026

LED Luminaires Used in Explosion Proof Lighting

Global Consumption Value Forecast ($ Million)

 

Market forecast data in this study report refers to consumption (use) for a particular calendar year; therefore, this data is not cumulative data. 

 

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