heat conduction

heat conduction Specification

Usage & Applications
Laboratory heat transfer experiments, educational demonstration

Type
Heat Conduction Device

Material
Aluminum Alloy

Capacity
5 Liters

Voltage
220 V

Power
800 W

Power Source
Electric

Input Voltage
220 V

Output Voltage
110 V

Installation Type
Table Top

Dimension (L*W*H)
300 mm x 120 mm x 80 mm

Weight (kg)
3.5 kg

Color
Silver

Safety Features
Overheat protection, thermal fuse

Heating Element Type
Nichrome Coil

Insulation Material
Ceramic wool

Surface Finish
Anodized for corrosion resistance

Response Time
<10 seconds

Control Type
Rotary thermostat

Thermal Conductivity Display
Digital LCD

Operating Temperature Range
Room temperature to 200C

heat conduction Trade Information

Minimum Order Quantity
210 Liters

Payment Terms
Cheque, Delivery Point (DP), Cash Against Delivery (CAD), Cash on Delivery (COD), Cash Advance (CA)

Supply Ability
1 Liter Per Week

Delivery Time
Hours

Sample Available
No

Sample Policy
Free samples are available

Packaging Details
drum

Main Export Market(s)
Asia

Main Domestic Market
All India

About heat conduction

EUROTHERM-NXG

The Next-Generation's Thermic Fluid

Premium Performance | Cost-Effective | Long-Lasting

Welcome to Eurotherm-NXG, Indias next-generation Thermic Fluid Oil (Heat Transfer Fluid) by Precitech Thermal, designed for high-performance industrial heating applications. A collaboration between Precitech Thermal (25+ years of expertise) and ENI-Italy (global leader in specialty oils), Eurotherm-NXG offers world-class thermal stability, efficiency, and reliabilityat a cost-effective price.

Reliable Performance & Accurate Results

The device delivers rapid heating-reaching the desired temperature in under 10 seconds-made possible by its efficient Nichrome coil. The precision rotary thermostat and digital LCD display allow exact monitoring and control, enhancing the accuracy and reproducibility of experimental results.

Robust Safety Mechanisms

Equipped with overheat protection, a thermal fuse, and ceramic wool insulation, this unit prioritizes user safety. These features prevent accidental overheating, safeguard internal components, and minimize heat loss, ensuring reliable performance during extended laboratory sessions.

Versatile Applications & Easy Operation

Perfect for laboratory heat transfer studies, educational demonstrations, and hands-on learning environments, this heat conduction device is user-friendly. Its anodized finish protects against corrosion, while tabletop design and manageable weight facilitate effortless installation and portability.

FAQ's of heat conduction:

Q: How does the heat conduction device work in laboratory experiments?

A: The device applies controlled heat using a Nichrome coil embedded in a durable aluminum alloy body. It conducts thermal energy efficiently, enabling students and professionals to observe and measure heat transfer through various materials, supporting accurate experimental analysis.

Q: What safety features are included to protect users during operation?

A: Safety is ensured through integrated overheat protection, a thermal fuse, and ceramic wool insulation. Together, these features prevent overheating, protect against electrical hazards, and minimize heat loss to maintain a safe operating environment.

Q: When is the digital LCD display useful in the process?

A: The digital LCD display continually shows the current temperature, allowing users to monitor system status in real-time and make precise adjustments using the rotary thermostat during laboratory experiments or demonstrations.

Q: Where should the device be installed for optimal performance?

A: For effective use, install the device on a stable tabletop in laboratory or educational settings. Its compact dimensions (300 x 120 x 80 mm) and manageable weight (3.5 kg) make it easily portable and suitable for standard lab benches.

Q: What is the response time for reaching the desired temperature setting?

A: This heat conduction device offers a rapid response time of less than 10 seconds, allowing users to begin experiments or demonstrations with minimal waiting.

Q: How is the device maintained to ensure long-term durability?

A: To maintain optimal performance, periodically check the ceramic wool insulation and ensure the anodized aluminum exterior remains clean and free from corrosion. Always operate within the recommended temperature and voltage ranges provided in the manual.

Q: What are the main benefits of using this heat conduction device in academic or laboratory environments?

A: The device offers fast, accurate thermal response, superior safety standards, ease of use, and robust construction. These benefits support efficient learning, reliable data collection, and repeated experimentation, making it a valuable asset for educational and lab settings.