Is it better to heat the eyewash station or not to heat it? Heat-Traced Safety eyewash and shower Stations

Introduction

Eye safety is of utmost importance in any workplace environment. Eye injuries can lead to permanent vision impairment, and can even be fatal in some cases. As such, it is essential that employers provide adequate eye safety measures, including the installation of eyewash and shower facilities. However, when temperatures drop to freezing, the water discharged from these fixtures can also freeze and block the flow of water needed to flush the eyes. To prevent this, some employers have opted to install heat tracing systems on their eyewash and shower facilities. This paper will examine the benefits and drawbacks of heating safety eyewash and showers, and provide guidance on how best to implement heat tracing systems.

What is Heat Tracing?

Heat tracing is a process which involves the installation of insulated and heated electrical cables around pipes and other equipment. This process is used to maintain the temperature of the piping, and the liquids it contains, in order to prevent freezing. Heat tracing systems can be used to prevent the freezing of safety eyewash and shower fixtures, as well as other liquid-filled piping systems.

Benefits of Heat Tracing

One of the main benefits of heat tracing safety eyewash and shower fixtures is that it prevents the freezing of the water, or other liquids, used to flush the eyes. This is especially important in cold climates, where freezing temperatures can cause the water to freeze and block the flow of water needed to flush the eyes. By installing a heat tracing system, employers can ensure that the water temperature is maintained at an adequate level, allowing for the proper flushing of the eyes.

Additionally, heat tracing systems also provide an additional layer of safety for the eyewash and shower fixtures. By keeping the piping warm, the risk of the pipes bursting is reduced, as the insulation helps to keep the pipes from becoming too cold and expanding. This can help to reduce the risk of flooding, which can be a major problem in areas with freezing temperatures.

Drawbacks of Heat Tracing

One of the main drawbacks of heat tracing safety eyewash and shower fixtures is the cost. Installing a heat tracing system can be expensive, as the cost of the materials and labor associated with the installation can add up quickly. Additionally, the cost of running the system must also be taken into account. Depending on the size of the system, the cost of running the system can be quite high, as the electricity used to maintain the proper temperature can add up quickly.

Another potential drawback of heat tracing safety eyewash and shower fixtures is the potential fire hazard associated with the system. Heat tracing systems use electricity to maintain the proper temperature, and as such, there is always a risk of fire if the system is not properly installed and maintained. Any heat tracing system should be installed and maintained by a qualified professional to ensure that it is safe to use.

Conclusion

Heat tracing safety eyewash and shower fixtures can be a great way to ensure that the water used to flush the eyes remains at the proper temperature, even in extreme cold weather. However, employers must also consider the cost and potential fire hazard associated with the system before deciding to install it. By taking the time to research the options and consider the pros and cons of heat tracing safety eyewash and shower fixtures, employers can make an informed decision that will help ensure the safety of their workers.

heat tracing Safety eyewash and Showers.

Heat-Traced Safety eyewash and shower Stations

1. Product description:

The electric heat tracing stainless steel composite eye washer adopts a timely heating electric heater, which can effectively increase the temperature of the eyewash outlet water by 15°C. The main body is made of SS304 material, which can resist the corrosion of various chemicals. At the same time, the electric heating and dipping ABS composite eye washer Using advanced self-draining technology, after using the eyewash, it can automatically empty the accumulated water inside the eyewash pipe to prevent freezing. The eyewash is suitable for use in areas where the on-site water supply temperature is lower than 16°C.

The equipment is equipped with a spray system and an Heat-Traced Safety eyewash system. When chemical substances are splashed on the eyes, face or other parts of the body of the staff, the spray system and eyewash system of the eyewash device are used to flush with a large amount of water to reduce the risk of chemical substances. Further harm to the injured, gaining time for medical rescue, water inlet condition: 0.2~0.6MPa, technical parameters comply with American ANSI/ISEA Z358.1 2009 Emergency Eyewash & Shower Standard and European EN 15154:2006 Sandard, widely used Petroleum, chemical, electronics, electric power, port and pharmaceutical industries.

2. heat tracing How to use:

Use the eyewash part alone: when the chemical substance splashes on the eyes or face of the staff, use the eyewash system of the compound eyewasher to flush with a large amount of water, the flushing time is > 15 minutes, and the flow of eyewash water: > 11.4L/MIN
Use the spray part alone: when the chemical substance splashes onto the staff’s clothing or other parts of the body, use the spray system of the compound Heat-Traced Safety eyewash and shower device for large-scale flushing, the flushing time is > 15 minutes, and the spray water flow rate: > 75.7 L/MIN
The spray part and the eye wash part are used at the same time: when the chemical substance splashes on the staff’s eyes, face and clothing, the spray system and the eye wash system using the compound eye wash device are turned on at the same time for large-volume flushing, and the flushing time > 15 minutes, eye wash water flow: > 11.4L/MIN, spray water flow: > 75.7L/MIN

3, the use of standards:

American eyewash standard: ANSI/ISEA Z358.1 2009 Emergency Eyewash and Shower Standard
European eyewash standard: EN15154:1/2/3/4 Emergency Eyewash and Shower Standard
Australian eyewash standard: AS4775-2007 Emergency Eyewash and Shower Standard
4. Technical parameters:
Centralized heating can effectively increase the temperature of the eyewash outlet water by 15°C
Equipped with a thermostat to control the temperature of the heating water source.
Set electric heater running indicator.
It is suitable for use in areas where the on-site water supply temperature is lower than 16°C.
Antifreeze power of small power heater: 100W.
Power of high-power heater to heat water source: 10KW
Voltage: 380VAC/3PH/50HZ
Current: 30A
Explosion-proof grade of junction box: Exd IIB T4 or Exd ICC T6
Equipped with sprinkler system and Heat-Traced Safety eyewash and shower system, installed directly on the ground at the job site
Heat-Traced Safety eyewash and shower system with automatic emptying device
The main material is stainless steel 304, which can resist the corrosion of various chemicals
Equipped with sprinkler system and Heat-Traced Safety eyewash and shower system, installed directly on the ground at the job site
Connect to drinking water
Suitable for use in areas where the ambient temperature is higher than 5°C
Body material: SS304
Once the Heat-Traced Safety eyewash and shower switch is turned on, non-human factors must not be automatically turned off
Rinsing time: > 15 MIN
Water source pressure requirement: 0.2~0.6 MPa
Inlet Size: 1-1/4″ FNPT
Spout Size: 1-1/4″ FNPT
Spray water flow: >75.7 L/MIN
Eye wash water flow: >1.5 L/MIN
Eye wash/face wash water flow: >11.4 L/MIN
The eyewash system is equipped with manual/automatic pressure regulating device
Equipped with luminous safety tag
Configure yellow and black safety warning tape
You can choose to configure sound and light alarm, connection to DCS, explosion-proof lighting, timing drainage device, waste water collection water enclosure, water curtain and spray room, etc.