Temperature classification for hazardous areas: A comprehensive guide

Any environment having a medium to high risk of fire or explosion due to various external parameters can be considered hazardous. The parameters often include dust ingress, overheating, accumulation of chemical vapours, electric sparks, and many more. As a result, every such environment will require thorough planning, operation, and construction of equipment setups and infrastructure to minimise the risks. 

This is where temperature classification for hazardous areas comes into play! It allows industries to choose the right mechanical and electrical infrastructures that won’t cause ignition in a combustible environment. Every equipment unit designed to operate in such atmospheres should be properly tested and certified. Only then can the risks of sparks, ignition sources, and gas explosion be mitigated. 

Classification

Most hazardous environments are classified into two major zones, depending on the type of explosive components and the duration of their existence. Below, we provide a brief explanation of these two zones to enhance your understanding. 

Zone 0, 1, 2 (Gases)

These areas leverage gas classification to determine the likelihood and duration of the presence of any flammable chemical vapour. 

1. Zone 0: Explosive gases are present continuously and for longer periods. Examples include chemical reactors and petroleum refinery tanks.
2. Zone 1: Explosive gases are most likely to be present during regular operations, like open processing vessels and the surrounding areas of fuel pumps.
3. Zone 2: These areas do not have explosive gases during normal operations. Even if the chemicals are present, their duration won’t be too long. Examples include ventilation systems in chemical plants. 

Zone 21, 22, 23 (Dusts)

Areas where flammable dusts can be found are at greater risk of explosions, especially due to the prolonged suspension state of the micro particles. The following are the detailed classifications. 

1. Zone 20: Hoppers, insides of silos, and mixers in sugar refineries can be classified into this zone since combustible dust particles remain suspended in the air for prolonged hours. 
2. Zone 21: These areas are likely to see a dust cloud during normal operations, like during the transfer of any powdered material from one place to another. 
3. Zone 22: Dust clouds are less likely to form, and even if they do, persistence will be for a short while only. Examples include the surrounding regions of a conveyor belt. 

Standards

Different industrial safety standards have been put in place to ensure safety, compliance, and consistency across industries dealing with hazardous environments.  

ATEX Directive

Stated by the French ATmosphères EXplosibles, the ATEX Directive is a European safety standard for equipment construction meant to be used in hazardous environments. 

1. Scope: Two directives are launched, namely ATEX 2014/34/EU for equipment safety and ATEX 1999/92/EU for workplace safety. These outline the designing, testing, and marking of different systems to be used, and employee guidance as well.
2. ATEX ensures that all the equipment units sold undergo conformity assessments and follow proper labelling standards. 

IECEx system

Commissioned by the International Electrochemical Commission (IEC), these standards lay out guidelines for the manufacturing of different equipment systems for hazardous areas. 

1. Scope: manufacturers receive a standard certification process, ensuring better cross-border acceptance and trade of equipment units. 
2. It involves direct testing and audits of all manufactured systems. Hence, industries can have better traceability and transparency about the equipment units they purchase. 

What is temperature classification(T-class)?

T-Class or temperature classification for hazardous area is a safety metric used to ensure the equipment units don’t become an ignition source under any condition. Every equipment designed has a specific surface temperature threshold that cannot be crossed during fault and regular operations. Whenever chemical gases and dust ingress are present in the air, equipment temperatures are monitored closely to ensure they do not cross the threshold.

T-Class ratings explained

Every equipment unit is labeled with a T-Class rating during the manufacturing process. It determines the maximum surface temperature that can be allowed without creating any risk of explosion when used in a hazardous environment. There are six different grades of T-Class as explained below. 

1. T1: Maximum allowable surface temperature is 450°C (E.g.: Methane)
2. T2: Maximum allowable temperature for the equipment surface is 300°C (E.g.: Ethylene)
3. T3: Max surface temperature during normal operations is 200°C (E.g., gas and chemical sectors)
4. T4: 135 °C is the allowable surface temperature that can be attained (E.g., Solvents like acetaldehyde)
5. T5: Maximum allowable surface temperature is 100°C (E.g: carbon disulphide)
6. T6: 85°C is the maximum temperature that can be handled (E.g., highly sensitive environments like hydrogen)

Auto ignition temperature (AIT) and its relation to T-Class

While purchasing different equipment and protective systems for hazardous areas, you might have come across the term, auto ignition temperature. It has a close relationship with the T-Class, owing to which clarity is required. It is the lowest temperature at which any substance will ignite spontaneously. No spark or external flame is necessary to facilitate the combustion. 

It’s important to ensure that the equipment units are chosen with a T-Class that’s lower than the AIT. For instance, if the gases usually present in the environment as an AIT of 200°C, the equipment units handled should belong to the T4 class. It will ensure that the surface temperature never reaches a point where auto-ignition will be triggered. 

Equipment marking and certifications

Every hazardous equipment is marked with a specific code. It indicates four different parameters that need to be monitored closely for a safer workplace. These include explosion protection level, gas or dust group, temperature classification for hazardous area, and equipment protection level. Consider Ex d IIC T4 Gb as an example. It will mean: 

1. Ex: Protected construction from explosions
2. d: Protection type, here in this case, it’s a flameproof enclosure
3. IIC: Group of the flammable gases, here it’s acetylene and hydrogen
4. T4: Temperature classification
5. Gb: Determines the equipment protection level

Common mistakes and best practices

Mistakes

1. One of the most common mistakes that people make is misreading the temperature classification for hazardous area. For instance, using a T3-grade equipment for an environment where the gases have an AIT close to the surface temperature.
2. Overlooking the zone classification and using incompatible equipment units also increases the risks of spontaneous ignition and explosions.
3. Sometimes, ignoring the ambient temperatures can render the systems non-functional, causing business disruptions and delays. 
4. Interchanging ATEX and IECEx certifications without noticing the local safety standards will create issues with compliance. 

Best practices 

1. You need to refer to the auto ignition temperature charts to ensure the equipment units chosen will be safe in the hazardous environments. 
2. Regular inspection of the equipment infrastructure will help detect overheating, surface damage, and seal failures early. 
3. Before installation, it’s important to review the marking codes and safety certifications for every equipment rated for hazardous environments. 

Conclusion 

From AIT to temperature classification for hazardous area, industries need to check different parameters so that they can purchase the best equipment unit. Only then can they ensure operational efficiency and continuity without putting everyone at risk. For this, one needs to gain a deeper understanding of the international safety standards like ATEX, local manufacturing practices, and other metrics. 

FAQs

How is the T-Class rating different from AIT?

The AIT is the lowest temperature at which any gas or chemical mixture can catch fire spontaneously. No electrical spark or external flame will be necessary to facilitate the combustion. However, when we talk about the T-Class, we mean the maximum allowable surface temperature of any equipment. 

Can T6 equipment be used in T4 areas?

The T6 rating means an allowable surface temperature of at most 85°C, which doesn’t exceed the upper threshold of T4, which is 135°C.

How is T-Class determined?

Every equipment is measured under fault and normal operational conditions to determine the maximum surface temperature that can be attained without triggering any kind of auto combustion. 

What standards govern temperature classification?

ATEX Directive, IECEx, and IEC 60079 are the three major industrial safety standards used for temperature classifications. 

Why is T-Class metric crucial for any hazardous environment?

The temperature classification for hazardous area is essential to ensure that all the equipment systems have a maximum rating that would allow operators to control surface temperature. This way, the housing would never attain a temperature that would cause the surrounding gases or dust to catch fire.

How does ambient temperature affect T-Class?

If heat is generated in excess in the surroundings, it can automatically raise the surface temperature of the equipment units.