The global explosion proof mobile communication devices market size was valued at USD 504.60 million in 2021. It is projected to reach USD 1,069.09 million by 2030, growing at a CAGR of 8.70% during the forecast period (2022-2030).
Using explosion-proof communication equipment, images, data, and audio transmission can monitor and manage such locations. Information is being shared from offshore to onshore facilities on an ever-increasing basis as remote and integrated operations in dangerous places become more common. For firms operating in risky places, secure communication is essential. Due to the complexity of processes, these businesses are compelled to have access to information and facilities to be constantly informed about preventing the risks of explosions and disasters. Explosions can be disastrous and result in significant losses of life, property, and money, in addition to harming the environment. Due to the abundance of highly combustible materials present, substantial risks exist in oil refineries, petrochemical facilities, mining quarries, and chemical factories.
|Market Size||USD 1,069.09 million|
|Fastest Growing Market||Europe|
|Largest Market||North America|
|Report Coverage||Revenue Forecast, Competitive Landscape, Growth Factors, Environment & Regulatory Landscape and Trends|
Mobile communication devices can improve production through real-time data transfer and communication, which is why they are essential to the sector. The industry's growing adoption of IoT devices offers a decrease in cost and operating time. The demand for quick and flawless operations across various end-user industries has grown significantly in the IoT era. To ensure smooth operations through the transfer of photos, data, and voice to monitor and control, the use of explosion-proof mobile communication devices is increasing. The expense of connecting these devices to the network and onshore operations center is rising directly to the growth in the number of sensors being put at remote locations.
Businesses can start utilizing these cutting-edge technologies immediately by setting up wireless networks while maintaining total control and visibility via mobile devices, PDAs, and tablets. In addition, as remote and integrated operations in hazardous locations become more prevalent, a lot of information is being shared from offshore to onshore facilities.
Even though technology has advanced quickly over time, varied regional safety requirements continue to constrain market expansion. Many nations have been operating under variations of the regulations established by governing bodies like the IEC and ATEX. These standards diverge regarding the classification of locations and equipment in hazardous situations. The absence of standardization in laws makes it difficult for producers and end users to design, test, and install explosion-proof equipment, even if each worldwide standards body produces and publishes its requirements for all electrical, electronic, and rated technologies. Several standards, including German VDE and the International IEC, have undergone numerous revisions, increasing the cost to end-users.
Testing and monitoring procedures differ between regional centers that offer IEC certification. Some nations only demand a straightforward certification for trade access, while others require installation approval procedures. A simple certification can be obtained quickly, but an installation permission regime may require more time and paperwork. Additionally, safety organizations from various regions modify the standards that impact the design and installation processes to effectively manage the danger of explosions in hazardous places. This is anticipated to have an impact on installation and production costs.
Governmental organizations typically enforce rules and regulations on the use of safety equipment. Trade units must abide by established regulations, but standards, which are preferred modes of operation, are not strictly enforced due to regional variations in compliance frameworks. Safely handling hazardous materials in industrial settings is a significant concern for all staff. Regulations are necessary as a result of such acts. In recent years, numerous government agencies and business organizations in the world's major economies have emphasized the need for strict rules.
These regulations strongly emphasize the use of explosion-proof equipment across all key industries. Since product makers are required to use explosion-proof machinery, restructuring operations to take new laws into account is the only practical course of action. Adoption has also increased as a result of fatal accidents in several industries. Due to these factors, manufacturing facilities and industrial plants have spent time and money on safety measures to safeguard their employees and production lines against explosions.
The global explosion proof mobile communication devices market is divided into four regions, namely North America, Europe, Asia-Pacific, and LAMEA.
North America is the most significant global explosion proof mobile communication devices market shareholder and is anticipated to grow at a CAGR of 7.90% over the projection period. North America is expected to hold a significant share of the global market for explosion-proof mobile communication equipment during the forecast period as a result of the government's strict laws regarding hazard safety measures, particularly in the United States. Chemicals, oil and gas, and refining plants, in particular, face several hazardous circumstances that could result in large explosions in the area process sectors. For instance, explosion accidents at Tri-Chem Industries in the US and BP's Texas City Refinery happened primarily due to a lack of accurate and timely information, making it unable to respond correctly to emerging circumstances in these dangerous places. This might increase demand for real-time communication equipment that can withstand explosions, propelling market expansion.
Europe is anticipated to grow at a CAGR of 8.75%, generating USD 298.48 million over the forecast period. The market expansion in the Europe region is being driven by expanding technological developments in communication devices for explosion and unstable regions for improved worker safety. A significant element driving the market in this region is the use of these devices, which has become a trend, as well as government regulations in the area. The explosion-proof mobile communication devices market provides information on a variety of recent developments, product pipeline analysis, impact of the domestic and regional market players, analyses opportunities in terms of developing revenue pockets, regulatory changes, product approvals, strategic choices, product launches, geographical expansions, and technological advancements in the area.
Asia-Pacific is one of the top investors and adopters in the global explosion-proof mobile communication devices market as a result of rising investment in industrial sectors and automation technologies. Explosionproof mobile communication devices are used in various industry verticals to protect devices from explosive and hazardous environments. The demand for mobile communication devices that can withstand an explosion will be driven by the industrialization of Asian nations, particularly India and China. India's mining sector is also expanding with a new government supportive of business. As the regulations tighten, oil-rich areas like the South China Sea and the Arabian Sea offer a seductive market for explosion proof mobile communication equipment.
The mining and oil and gas industries in the Middle East and Africa are well-known on a global scale. Both industries are prone to risks, and numerous explosions and vulnerability, which causes companies to be outfitted with cutting-edge hazard-proof systems, acting as market drivers. The oil and gas industry is also growing in Egypt, Saudi Arabia, and the United Arab Emirates. Local businesses are investing more frequently in market-researched products, like Saudi Aramco. Furthermore, these regional administrations must now adopt specific types of mobile communication devices. Due to its rapid expansion in the mining industry and the production of rugged devices, South Africa currently holds a monopoly on the Middle East and Africa's explosion proof mobile communication devices market.
The global explosion proof mobile communication device market is segmented by product and end-user industry.
Based on Product, the global market is bifurcated into smartphones, cell phones, two-way radios, handheld PC, headsets, tablets, and other products.
The smartphone and cell phone segment is the highest contributor to the market and is expected to grow at a CAGR of 9.10% during the forecast period. Due to their widespread use and capabilities for calling, chatting, and taking pictures and videos, smartphones and cell phones are predicted to hold a significant portion of the market. They offer various connectivity options, including Bluetooth, Wi-Fi, and LTE. Mobile users, the control room, and back-end systems may all communicate and collaborate more efficiently, thanks to smartphones and cell phones. Saving money and making processes more reliable and secure is possible. Additionally, the explosion-proof certification mark indicates that the National Explosionproof Testing Center has verified that the product is on explosion-proof phones. These phones are perfect for flammable and explosive environments such as the petroleum industry, chemical plants, and natural gas.
Although radio systems are a crucial communication tool in many workplaces, it is not always safe to use them where electrical sparks or heat could cause an explosion. However, it is possible to use two-way radio systems in explosive environments. The equipment can be used in potentially dangerous regions with perfect safety when it complies with the stringent standards outlined by the ATEX Directive. The European Union (EU) created the ATEX Directive 94/9/EC, which aims to ensure that workers in potentially explosive environments use inherently safe tools and systems, such as two-way radios, that have received the ATEX seal of approval.
Using regular handheld computers, even ruggedized ones, in a dangerous environment is extremely risky unless they have been appropriately certified as explosion-proof. Intrinsically safe computers make difficult situations less dangerous. In a potentially explosive environment, they defend people and property. For instance, businesses like Honeywell and Xplore Technologies Corporation offer handheld PCs. Mobile computers for dangerous locations have traditionally had to make substantial compromises due to obsolete technology and restrictive setup possibilities. As a result, Honeywell and Ecom collaborated to develop a new paradigm in intrinsically safe mobile computing called the Ci7. It has the most global certifications for hazardous situations.
Based on the end-user industry, the global market is bifurcated into oil and gas, mining, manufacturing and processing, chemical and pharmaceutical, defense, and other end-user industries.
The oil and gas segment owns the highest market share and is expected to grow at a CAGR of 9.6% during the forecast period. The oil and gas business fosters a strong safety culture even under favorable conditions. Governmental organizations like the US Occupational Health and Safety Administration (OSHA) have separated the oil and gas industry into three primary segments: oil and gas extraction, oil and gas well drilling, and oil and gas appropriate tasks. A worker on these parts is likely to work in risky situations, such as chemical exposure, fire or explosion risk, distant locations, and cramped areas like wells, pipelines, and machinery. This increases the demand for explosive-proof devices.
The global mining industry has a sizable number of hazardous zones, which pose various risks to workers' health and safety. As a result, problems like inefficiency, a need for a large workforce, inadequate planning, and an inability to analyze data and procedures signaled the need for a mobile communication solution, fueling the industry's demand for explosion-proof mobile communication devices. As the highest number of individuals are exposed to risk in a mining setting, and there are frequently several fatalities, mining is one of the most dangerous professions. Mining requires specialized handhelds with a special license because of the hazardous coal dust and methane mix.
The demand for mobile communication devices that can withstand explosions is anticipated to rise along with rising safety equipment investments. To maintain buildings and equipment secure and in excellent operating order, staff at many industrial and manufacturing plants do frequent field inspections by patrolling along predetermined routes and checking field instruments at precise spots along the way. It is anticipated that such increasing demand for mobile devices would further fuel market expansion. To meet the rising demand, market participants concentrate on developing innovative products.