The explosion proof equipment finds its applications in diverse industries, such as aerospace and aircraft maintenance sites, construction sites, HVAC systems, manufacturing and machine processing units, mining fields, and oil & gas extraction fields. Important equipment used in these industries are lighting, surveillance and signaling systems. Therefore, most of the companies working in the field of explosion proof equipment provide numerous product offering in these areas. Apart from these, many other types of electrical equipments used in hazardous areas including, motors, material handling systems, lifting systems, automation & distribution systems, and switch gears, are now being constructed as explosion proof equipment.
Explosion proof equipment does not mean that products will be able to withstand any explosion. Instead, it means that products will contain any source of an explosion within its housings. The term "explosion proof" also does not indicate, that the product is capable of withstanding an internal explosion without allowing flames or hot gases to escape or trigger an explosion in the surrounding atmosphere. A broader term that can be assigned to these products is explosion protection equipment. This equipment contains in itself various protection principles, like explosion prevention by limiting the operating energy, explosion proof by making the housing robust to withhold any explosion inside itself, and explosion segregation by isolating the source of an explosion inside a protective medium.
Need for Explosion Proof Equipment and Regulations Create Attractive Markets
Explosion protection equipment is used in a wide range of industry verticals to protect devices and products from various hazardous environments. In the wake of increasing industrial accidents and explosions in mines, regulatory bodies, like OSHA and others, are initiating the implementation of stricter regulations both to ensure worker safety and to prevent damage to the atmosphere.
The other driving factor of the market is extensive usage in the oil & gas industry. Discovery of new reserves of oil and shale in countries, like Brazil, Mexico and Greenland, and investments in the United States toward shale gas exploration is expected to drive the market for explosion proof equipment. Preserving the environment is a high priority concern, and the governments are cognizant of this issue, resulting in the implementation of government regulations particularly in the oil & gas exploration industry. Although the major markets for explosion proof equipment are mining and oil & gas industries, they have also found applications in fields like aerospace, construction, and other sectors. Asia-Pacific and Latin America are expected to be high growth regions, with increasing industrialization and exploration of natural resources.
Demand from Industrial Plants and Safety Concerns Creating New Opportunities
Ensuring safe handling of hazardous substances in industrial areas has been a significant concern for all the parties involved. Stringent regulations are being discussed by governmental agencies and trade bodies in all major economies. These regulations are centered on the use of explosion-proof equipment in all major industries, with occupation relating to hazardous materials handling. All major electrical product manufacturers have revamped their operations to account for changes in regulations. The oil & mining sector has witnessed tremendous growth due to the identification of substantial reserves in emerging economies. Explosion proof equipment market is expected to record high growth rates in this sector.
Industrial plants, mining industry, and refineries have invested time and resources in safety equipment to protect their workforce and manufacturing units from explosions. IECEx, NEC/CEC, and OSHA have played a major role in prescribing safety standards and operational regulations. Regulation is usually imposed by a governmental agency and trade units have to comply with the prescribed regulations, while standards are the desirable mode of operations and are not strictly enforced due to differences in compliance frameworks around the world. In the United Kingdom, the Dangerous Substances and Explosive Atmospheres Regulation (DSEAR) has been commissioned to prescribe safety regulations for industrial areas working in a potentially hazardous environment. A preliminary risk assessment is conducted by the agency and is followed by a thorough study of the work environment. DSEAR furnishes a set of guidelines and safety procedures for operations involving detailed steps on “allowable” modes of operations.
To create better awareness for all stakeholders in the explosion-proof equipment market, IEC launched a mobile application to show international certificates for equipment used in explosive atmospheres. The regulatory frameworks and standards are periodically updated to take cognizance of changes in the composition of hazardous substances and to remain relevant in a highly dynamic environment.
Challenges Faced by the Stakeholders due to Ever Evolving Regulations
To efficiently manage explosion risks in hazardous areas, safety organizations make amendments in the standards influencing the designing and installation processes thus affecting the production and installation costs. Whenever there are changes in the regulations, the products are affected in either of these two ways: products do not require any change or product is affected by the changes slightly, which requires a test to be conducted based on the new design features or the product is affected substantially. With each new regulation, there is a whole new procedure to be followed for obtaining certifications and adhering to them.
IECEx has been promoting the use of a single database for recording international trade transactions. However, changes to regulatory standards and need for additional compliances in Europe (ATEX) are affecting these efforts. The greatest challenge for the regulatory bodies and compliance authorities is gaining a trade-off between ensuring safety standards and reducing transaction time for equipment manufacturers.
Key Developments in the Market
- November 2017: PEC-EX’s latest software module, R. STAHL was introduced exclusively for plant managers working in the explosion-protected plants. The primary objective of this solution is to optimize the planning, execution, and documentation of the inspections and tests conducted periodically in a plant.
- November 2017: R. STAHL started fitting its Thin Clients for zone 1, zone 2 and safe areas with its new, proprietary, industrial-grade v5 firmware. It is based on Windows 10 IoT Enterprise as the operating system and, as a closed system ensures extremely tough protection against unauthorized access. In addition to its high degree of security, the firmware is very user-friendly and features comprehensive support of modern automation data communication, within the framework of the industrial Internet of Things.
- January 2016: STAHL and Steute have established a strategic partnership in Brazil, after a long-term business relationship in Germany, to enlarge their product portfolio and to offer a one-stop-shop with excellent customer service.
Reasons to Purchase the Report
- An outlook of the current and future global explosion proof equipment market.
- Analyzing various perspectives of the market with the help of Porter’s Five Forces Analysis.
- Segments and sub-segments expected to dominate the global market.
- Regions expected to witness the fastest growth during the forecast period.
- Latest developments, market shares and strategies employed by the major market players.
- 3-month analyst support along with the Market Estimate sheet (in Excel).
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1.1 Key Deliverables of the Study
1.2 Study Assumptions
1.3 Research Methodology
2. Executive Summary
3. Market Insights
3.1 Market Overview
3.2 Industry Value Chain Analysis
3.3 Industry Attractiveness - Porter’s Five Force Analysis
3.3.1 Bargaining Power of Suppliers
3.3.2 Bargaining Power of Consumers
3.3.3 Threat of New Entrants
3.3.4 Threat of Substitutes
3.3.5 Intensity of Competitive Rivalry
4. Market Dynamics
4.1.1 Very High Asset Cost of the End-User Industry Makes it an Attractive Investment
4.1.2 Safety of Employees Working at Such Places
4.1.3 Industrial Safety Regulation and Standard Operating Procedures of the Industry
4.2.1 Fluctuating Demand of Such Equipment
4.2.2 Testing of Each Equipment Before Use in the Industry
5. Market Segmentation
5.1 By Hazardous Materials/Substance Type
5.1.1 Class I
5.1.2 Class II
5.1.3 Class III
5.2 By Explosion Proof Equipment Type
5.2.2 Pressurized and Purged
5.2.3 Increased Safety
5.2.4 Intrinsic Safety
5.3 By Hazardous Zone
5.3.1 Zone 0
5.3.2 Zone 20
5.3.3 Zone 1
5.3.4 Zone 21
5.3.5 Zone 2
5.3.6 Zone 22
5.4 By Systems
5.4.1 Power Supply Systems
5.4.2 Material Handling
5.4.4 Automation Systems
5.4.5 Surveillance Systems
5.5 By Region
5.5.1 North America
22.214.171.124 United States
126.96.36.199 United Kingdom
188.8.131.52 Rest of Europe
184.108.40.206 South Korea
220.127.116.11 Rest of Asia-Pacific
5.5.4 Latin America
18.104.22.168 Rest of Latin America
5.5.5 Middle East & Africa
22.214.171.124 Saudi Arabia
126.96.36.199 United Arab Emirates
188.8.131.52 Rest of Middle East & Africa
6. Competitive Intelligence - Company Profiles
6.2 Alloy Industry Co. Ltd
6.3 Bartec Gmbh
6.4 Cordex Instruments
6.5 Extronics Limited
6.6 G.M. International Srl
6.7 Intertek Group
6.8 Marechal Electric Group
6.9 Pelco (Acquired by Schneider Electric)
6.11 R. Stahl
6.12 Rae Systems (Acquired by Honeywell)
*List not Exhaustive
7. Investment Analysis
7.1 Recent Mergers & Acquisitions
7.2 Investment Outlook
8. Future of the Market