Unlike a whole heater or boiler, the Water Urn Boiler Faucet from NTT is a specific hot water
dispensing replacement part for urns — ideal when you want to maintain or repair a hot
water serving station economically.
Faucet size available Long Shank (1/2” BSP), Short Shank (3/4” BSP), Mini Urn Tap models
(URN-011 and URN-012)
What Makes Urn Faucets Unique? In a hot water urn or boiler, the faucet or tap is one of the
most frequently used components. Constant dispensing exposes it to wear and tear from
Water minerals, Heat Stress, and Frequent Handling. Replacing the tap often extends the
overall life of the urn without having to replace the entire boiler or boiler system.
These faucet parts are especially valuable for:
- Caterers and buffet operations — where hot water for tea, coffee, or soups is
constantly dispensed - Office hot water stations — low maintenance solution that reduces downtime
- Temporary events or markets — cost-effective replacement parts for rentals or
portable urns
Practical Tip when installing or replacing urn faucets, always ensure the size (BSP
measurement) matches your urn model — this avoids leaks and ensures a secure fit.
- RedHeat Concealed URN — Sleek, Durable, High-Performance Heating
The RedHeat Concealed URN represents a more advanced solution — a built-in heater
element for urns and boilers that is fully concealed. This product delivers hot water and
other heated liquids efficiently and cleanly.
Some of the key features include:
- Fast heating time
- Rust, scale, and chlorine-resistant design
- SUS 304 mirror finish
- Boil-dry protection to prevent damage if there’s no water in the urn
- Healthy, safe, and environment-friendly design
What Does “Concealed” Mean?
In this context, a concealed heating element is integrated inside the urn body rather than
exposed or external. This brings key benefits:
✓ More hygiene: less exposed steel and fewer crevices where contaminants can build up
✓ Better heat transfer: direct contact with the liquid heats faster
✓ Easier cleaning: smoother surfaces are easier to maintain
Because of these advantages, concealed urn heaters are especially popular for foodservice
and hospitality operations. According to product features, this heating solution is suitable for
more than just boiling water: - Heating gravy, soups, and broth
- Preparing pasta or noodle dishes
- Serving hot beverages at self-service counters
- Industrial liquid heating where safety and precision matter
Safety & Durability
The inclusion of boil-dry protection is significant. If the urn is accidentally switched on
without water inside, the system protects itself — reducing risk of element burnout or safety
hazards. This makes the product long-lasting and reliable under heavy use.
- Infrapara Energy Saving Infrared Radiant Ceramic Heater: The Future of
Efficient Heat Technology
In an age where energy efficiency and smart heating solutions are becoming essential across
homes, industries, and commercial environments, infrared radiant heating stands out as a
cutting-edge option that delivers speed, comfort, and cost savings. Among the leaders in this
space is the Infrapara (Energy Saving Infrared Radiant Ceramic Heater) from NTT Heating Sdn
Bhd, designed to provide high-efficiency heat transfer for a wide range of applications.
Let’s explore what makes this product significant, how it works, and why it’s becoming
increasingly popular in industries that demand fast, efficient, and reliable heating.
What Is the Infrapara Infrared Radiant Ceramic Heater?
The Infrapara heater from NTT is a ceramic infrared radiator engineered to emit long-wave
infrared rays — a type of electromagnetic heat energy that’s highly effective at warming
objects and materials directly, rather than just warming the surrounding air.
Unlike traditional heating elements that depend primarily on convection (moving warm air
around), infrared heating delivers radiant heat that penetrates surfaces and warms from the
inside out. This makes it extremely efficient for targeted heating and drying tasks.
The product is built from selected high-quality ceramics and rare metal oxides, incorporating
durable nichrome wire embedded within the ceramic structure — ensuring high thermal
durability, mechanical strength, and excellent electrical insulation.
How Infrared Radiant Heating Works
Infrared heating operates much like the warmth you feel from the sun: instead of heating
the air, it emits infrared radiation that is absorbed directly by objects and materials in its
path. When infrared wavelengths are well matched to the target material’s absorptivity, heat
transfer becomes extremely effective — raising temperatures quickly and with minimal
energy waste.
Key Mechanisms - Radiation Over Convection:
o Infrared heaters radiate energy directly, which means surfaces and objects
heat faster.
o This is unlike convection heaters that heat air first and then the objects. - Long-Wave Infrared:
o Infrapara emitters radiate long-wave infrared energy, which aligns well with
many industrial and processing materials that absorb these wavelengths most
effectively.
o This promotes efficient heat uptake without unnecessary energy loss. - Speed and Uniformity:
o The combination of high emissivity ceramics and optimized wavelength
radiation allows faster heating (often 1–10× faster than some conventional
heaters).
o Heat distribution is uniform, reducing hotspots and improving process
control.
Key Features & Benefits
The Infrapara Energy Saving Infrared Radiant Ceramic Heater is engineered with
performance and efficiency in mind. Its design features enable better results in diverse
settings — from industrial processing to comfort heating.
Core Features
- High Thermal Durability:
Uses selected ceramics with excellent mechanical strength and electrical insulation. - High Emissivity:
Produces strong radiant heat efficiently — a hallmark of effective infrared therapy. - Quick Thermal Response:
Reaches operating temperature fast and responds quickly to control changes. - Favourable Wavelength Control:
Designed to emit radiation in wavelengths that are readily absorbed by various target
materials for maximum heater efficiency. - Energy Savings:
Can cut electrical consumption by up to 50% compared to older generation heat
sources — a major benefit in energy-sensitive operations. - Uniform Heat Distribution:
Provides consistent and even heating — critical in precision processing applications
where temperature gradients can affect outcomes. - Dust-free and Safe Operation:
Infrared radiant heating minimizes dust contamination and requires no open flame,
enhancing safety and cleanliness in sensitive environments. - Reduced Oven Volume:
In thermal processing systems (like ovens or drying chambers), effective infrared
radiation often allows smaller equipment volumes or improved throughput, which
can further reduce energy use and operating costs.
Typical Applications
Due to the nature of infrared radiant heating, the Infrapara heater is suitable for a wide
range of applications:
Industrial Processes
Infrared ceramic heaters are commonly used for: - Drying and Curing:
Ideal for paints, coatings, adhesives, and industrial materials requiring precise heat
exposure. - Surface Heating:
Efficient at providing focused heat on specific areas without heating entire spaces. - Plastic and Sheet Processing:
Infrared radiation is absorbed effectively by many plastics, making Infrapara suitable
for thermoforming or drying operations.
Commercial Uses - Commercial Cooking and Heating:
Radiant heat ensures uniform warming in cooking equipment while saving energy. - Sauna
Infrared heat provides gentle, even heat beneficial for wellness applications —
often preferred in saunas for muscle relaxation and therapeutic warmth. - HVAC Systems:
Can be integrated with dry heat systems for quick heat delivery in industrial and
commercial air handling.
Energy Efficiency & Cost Savings
One of the most compelling advantages of the Infrapara infrared heater is its ability to
deliver heat more efficiently than many traditional heating methods. By directly transferring
radiant energy into the material being heated (rather than first warming the ambient air),
energy consumption can be significantly reduced — sometimes by up to 50% — and overall
production efficiency improved.
This not only helps in lowering operational costs but also contributes to a smaller carbon
footprint, aligning with sustainability goals crucial for modern businesses and
environmentally conscious users.
Conclusion
The Infrapara Energy Saving Infrared Radiant Ceramic Heater from NTT represents a smart
evolution in heating technology — combining efficiency, speed, and control in a package
suited for industrial, commercial, and comfort heating applications. Its innovative use of
long-wave infrared radiation, ceramic materials, and advanced heat transfer mechanisms
positions it as a top choice for companies and operators seeking high-performance heating,
energy savings, and reliable long-term use.
Whether you’re upgrading your thermal processing equipment or exploring ways to make
your heating systems more cost-effective and efficient, infrared radiant heat with Infrapara
presents a powerful solution worth considering.
