Scientico

The Multi Heat Exchanger with Data Acquisition from SCIENTICO offers a cutting-edge solution for comprehensive analysis of heat transfer in various heat exchanger configurations. This advanced apparatus is ideal for educational, research, and industrial applications, allowing users to study concentric tube, shell and tube, and plate heat exchangers under both parallel and counter-flow conditions.

Product Overview:

Designed to provide an in-depth understanding of heat exchange mechanisms, this versatile unit includes three types of heat exchangers, a service module with a hot water system, and integrated instrumentation for precise monitoring and control. The system’s data acquisition software ensures accurate recording and analysis, enhancing usability for researchers and students alike.

Key Features:

• Versatile Heat Exchanger Configurations:

  • Study heat transfer in concentric tube, shell and tube, and plate heat exchangers.
  • Operates under parallel flow or counter-flow conditions.

• Advanced Monitoring and Control:

  • Integrated instruments for temperature and flow monitoring.
  • Software-based data acquisition for real-time analysis.

• Educational and Research Applications:

  • Analyze the effects of flow rate and temperature differences.
  • Calculate heat transfer coefficients.

• Batch-Type Heat Transfer Demonstration:

  • Includes a jacketed vessel with coil and stirrer for batch processing experiments.

Specifications:

1. Heat Exchanger Types:

   • Concentric Tube:
     • 2 stainless steel inner tubes with clear acrylic casing.
   • Shell and Tube:
     • Stainless steel tubes with clear acrylic casing.
   • Plate:
     • Stainless steel multiple plates.

2. Service Module:

   • Hot Water System: Includes a tank and pump.
   • Heater: 3000W.
   • Flow meters for hot and cold water.

3. Jacketed Vessel:

   • Heat Transfer Area:
     • Jacket: ~600 cm².
     • Coil: ~350 cm².
   • Stirrer: Adjustable from 0–500 RPM.

4. Instrumentation:

   • 14 temperature sensors for detailed monitoring.
   • Measuring ranges:
     • Temperature: 0–325°C.
     • Heating power: 0–3000W.

Service Requirements:

• Power Supply:
  • 230V, 50Hz/60Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.
• Continuous water supply.
• Adequate bench space for setup.

Dimensions and Weight:

• Dimensions: 1200x600x800mm (LxWxH).
• Weight: Approx. 55kg.

Why Choose SCIENTICO?

• Comprehensive Analysis: Covers three heat exchanger types with variable flow options.
• Precision Monitoring: Advanced sensors and software for reliable results.
• Robust Design: High-quality stainless steel and durable construction for long-term use.

FAQs:

Q1. Can I switch between parallel and counter-flow setups easily?
A1. Yes, switching is as simple as adjusting two flexible hoses.

Q2. What software is included with the apparatus?
A2. The system comes with educational and data acquisition software for streamlined operation and analysis.

Q3. Is the jacketed vessel suitable for batch experiments?
A3. Yes, it is designed for batch-type heat transfer demonstrations, complete with a stirrer and coil system

To cater to the diverse needs of our valued customers, we specialize in the manufacturing, exporting, and supplying of a premium range of Heat Transfer Equipment. Our product range includes:

• Shell and Tube Heat Exchangers
• Plate Heat Exchangers
• Air-Cooled Heat Exchangers
• Finned Tube Heat Exchangers
• Double Pipe Heat Exchangers
• Cooling Towers
• Condensers and Evaporators

These products are meticulously designed to ensure optimal thermal efficiency, durability, and cost-effectiveness, making them suitable for various industrial applications.

Why Choose Us?

1. Unmatched Quality: All our equipment is manufactured using premium-grade materials and undergoes rigorous quality checks to ensure reliability and performance.
2. Advanced Technology: We employ cutting-edge technology in the design and manufacturing of heat transfer solutions for maximum efficiency.
3. Customization Options: We offer tailored solutions to meet the specific requirements of diverse industries.
4. Global Expertise: As experienced manufacturers and exporters, we have a strong presence in international markets, ensuring compliance with global standards.
5. Customer-Centric Approach: Our team is dedicated to providing exceptional customer support, from product selection to after-sales service.
6. Cost-Effective Solutions: We ensure competitive pricing without compromising on quality or performance.

Choose us as your trusted partner for all your heat transfer equipment needs, and experience excellence in engineering and customer satisfaction.

For the assorted needs of our precious customers, we are involved in manufacturing, exporting and supplying an excellent array of Heat Transfer Equipment.

Model No: SCI-126
Manufacturer and Exporter: SCIENTICO

The Forced Convection Heat Transfer Apparatus is a robust educational tool specifically designed to demonstrate the principles and theory of forced convection heat transfer. It is an essential piece of equipment for students and researchers in engineering fields, particularly those focusing on heat exchanger design and thermal systems.

Description

This apparatus consists of a motor-driven fan, piping, and a well-equipped instrumentation panel, all mounted on a sturdy frame with a large work surface for user convenience. The fan operates at a constant speed, drawing air through a control valve into a u-shaped pipe. Airflow is measured via an orifice plate connected to a manometer, while a separate manometer monitors the fan pressure drop.

The system transitions into a smaller electrically heated copper test pipe, which is insulated to minimize heat loss. The test pipe heater’s power input is adjustable via a variable transformer, and the power consumption is displayed on the instrumentation panel. For enhanced learning, the test pipe features:

• Pressure tappings for measuring pressure drops.
• Thermocouples for capturing wall and insulation temperatures at multiple points.
• A thermometer for inlet air temperature measurement.

The apparatus also includes a Pitot tube traverse assembly for measuring the velocity profile across the test pipe, ensuring comprehensive analysis of forced convection phenomena.

For safety, the heater is interlocked with a motor starter, isolator, and airflow detector to prevent overheating in the absence of sufficient airflow.

Features

• In-depth Study of Forced Convection: Explore heat transfer theory and formulas relevant to forced convection in pipes.
• Comprehensive Instrumentation: Includes manometers, thermocouples, and digital indicators for precise measurements.
• Adjustable Power Input: Control the heater's power using a variable transformer.
• Velocity Profile Measurement: Pitot tube traverse assembly for detailed airflow analysis.
• Safety Features: Interlocks and isolators ensure safe operation during experiments.

Specifications

• Fan: Constant speed motor-driven fan.
• Piping: U-shaped pipe connected to an insulated copper test pipe.
• Instrumentation:
  • Manometers for airflow rate, pressure drop, and velocity profile measurements.
  • Thermometer for inlet air temperature.
  • Thermocouples for wall and insulation temperature.
  • Digital indicator for temperature readings.
• Power Supply: Variable transformer to control heater power.
• Safety System: Motor starter, isolator, and airflow interlock.

Applications

• Engineering Education: Ideal for universities and technical institutions teaching thermal systems and heat transfer principles.
• Heat Exchanger Design: A practical tool for understanding forced convection in heat exchanger pipes.
• Research and Development: Suitable for labs focused on convection heat transfer analysis.

Why Choose SCIENTICO?

SCIENTICO is a trusted manufacturer and exporter of high-quality lab equipment. The Forced Convection Heat Transfer Apparatus is meticulously designed for accuracy, durability, and safety, making it a valuable addition to engineering laboratories worldwide.

SCIENTICO, a globally recognized lab equipment manufacturer and heat transfer lab equipment exporter, introduces the Computerized Heat Pipe Demonstrator. This advanced apparatus is designed to analyze the fundamentals of heat conduction and convection, providing a comprehensive understanding of heat transfer principles in various conditions.

Key Features:

• Heat Transfer Analysis: Explore the effects of conduction and convection on heat transfer.
• Free and Forced Convection: Conduct experiments in still air (free convection) or with flowing air (forced convection).
• Material Comparisons: Study the thermal conductivity of different materials, including copper, aluminum, brass, and steel.
• Variable Experiment Conditions: Adjust airflow rates and heater power to simulate diverse scenarios.
• Educational Software: Includes data acquisition and system operation tools, with explanatory texts and illustrations for theoretical insights.
• High Precision: Equipped with five temperature sensors and adjustable fans for accurate data collection.

Applications:

• Study of heat conduction and convection phenomena.
• Analysis of the effect of material type and sample length on heat transfer.
• Calculation of convective heat transfer coefficients.
• Investigation of heat dissipation in free and forced convection scenarios.

Specifications:

• Heater:

  • Power: 30W
  • Temperature Limit: 160°C

• Fans:

  • Max Flow Rate: 40m³/h
  • Speed: 14,400 RPM

• Samples:

  • 6 samples of varying lengths and materials (Copper, Aluminum, Brass, Steel).
  • Short samples: 104mm length, 32.6cm² heat transfer area.
  • Long samples: 154mm length, 48.4cm² heat transfer area.

• Measurement Ranges:

  • Flow Velocity: 0–10m/s
  • Temperature: 0–325°C (8 sensors)
  • Heating Power: 0–30W

• Power Requirements:

  • 230V, 50/60Hz, 1 phase or 120V, 60Hz, 1 phase

• Dimensions & Weight:

  • LxWxH: 700x650x700mm
  • Approx. Weight: 45kg

Why Choose SCIENTICO?

As a trusted heat transfer lab equipment manufacturer and exporter, SCIENTICO delivers precision-engineered solutions tailored to meet the needs of educational and industrial laboratories. Our apparatuses are crafted to ensure reliability, accuracy, and long-lasting performance.

Q&A Section

Q1. What is the primary purpose of the Computerized Heat Pipe Demonstrator?
A1. The apparatus is designed to study the effects of heat conduction and convection on heat transfer, comparing material performance and analyzing thermal behaviors under varying conditions.

Q2. Can experiments be performed with forced convection?
A2. Yes, the apparatus allows experiments with both still air (free convection) and flowing air (forced convection) using adjustable fans.

Q3. What materials are included for thermal analysis?
A3. The demonstrator includes samples made of copper, aluminum, brass, and steel in different lengths for comparative studies.

Q4. Why is SCIENTICO a trusted choice for laboratory equipment?
A4. SCIENTICO is a leading lab equipment manufacturer and heat transfer lab equipment exporter, recognized for delivering high-quality, reliable, and durable solutions for global laboratories

Heat Pipe Demonstrator

From our wide range of products, we proudly offer the SCI-HPD Heat Pipe Demonstrator, designed to showcase the principles of heat transfer through a heat pipe system. The demonstrator is crafted with optimum quality raw materials and advanced technology to ensure reliable and efficient performance. It is available in various sizes, designs, and specifications to cater to the specific needs of our esteemed clients.

The SCI-HPD Heat Pipe Demonstrator is rigorously tested by our experts to meet well-defined standards, ensuring a flawless and high-performing product for educational and experimental use.

Features:

• Corrosion Resistance: Ensures longevity and durability in various environments.
• High Operational Fluency: Offers smooth and efficient operation for enhanced learning.
• Easy to Operate: Designed for straightforward functionality, making it user-friendly for students and instructors.

Scientico, as a trusted lab equipment manufacturer and exporter, provides top-quality heat pipe demonstrators for academic institutions, research facilities, and industrial training centers.

Model No: SCI-765

Manufacturer and Exporter: SCIENTICO

SCIENTICO is a trusted manufacturer and exporter of high-quality laboratory equipment, including the Helical Coil Heat Transfer Apparatus. Designed for use in academic and research environments, this apparatus is ideal for studying heat transfer characteristics in helical coils under various operating conditions.

Description

The Helical Coil Apparatus is engineered to operate across a wide temperature range, enabling comprehensive analysis of heat transfer processes. It is constructed using high-grade raw materials to ensure durability, efficiency, and long-term reliability. The apparatus allows students and researchers to investigate the principles of heat transfer, including natural convection, forced convection, and coefficient analysis for helical coils.

This system is widely used in thermal engineering studies, focusing on the efficiency and performance of helical coil designs in heat exchangers and related equipment.

Features

• Versatile Operation: Designed to operate across a wide range of temperatures.
• Durable Construction: Made with premium-quality raw materials for long-lasting performance.
• Educational Focus: Facilitates the study of heat transfer characteristics in helical coils.
• Efficient Design: Optimized for both natural and forced convection experiments.
• User-Friendly Setup: Compact and easy to install for hassle-free operation.

Specifications

1. Coil Design:

   • High-quality helical coil for precise heat transfer studies.
   • Operates effectively across a wide range of temperatures.

2. Instrumentation:

   • Digital temperature indicators for accurate monitoring.
   • Thermocouples placed at strategic points for temperature measurement.

3. Control Panel:

   • Integrated system for controlling and monitoring operational parameters.

4. Optional Features:

   • Data acquisition system for advanced analysis (if required).

Applications

• Educational Institutions: Ideal for thermodynamics and heat transfer experiments.
• Research & Development: Suitable for advanced studies on helical coil performance.
• Industrial Training: Practical training for engineers and technical staff.

Why Choose SCIENTICO?

With years of experience as a leading manufacturer and exporter, SCIENTICO is dedicated to delivering superior-quality heat transfer equipment. The Helical Coil Apparatus is crafted to meet the needs of both educators and researchers, ensuring precision and reliability in every experiment.

Model No: SCI-134

Manufacturer and Exporter: SCIENTICO

SCIENTICO proudly presents the Free & Forced Convection Heat Transfer Apparatus, a versatile system designed to facilitate detailed studies of heat transfer by convection in industrial and academic environments. This apparatus allows users to investigate the principles of both free convection and forced convection in a vertical air duct. It is an essential tool for understanding heat transfer processes, particularly in industrial heat exchangers and related systems.

Description

Convection is a key heat transfer process where fluid movement drives heat exchange between warm and cold zones. This apparatus provides a comprehensive platform to study simultaneous conduction and convection heat transfer in various conditions.

The vertical air duct is equipped with temperature and air velocity measurement capabilities, powered by a fan-driven air stream for forced convection experiments. For free convection studies, the unit demonstrates heat transfer naturally without external airflow.

The system includes:

• Interchangeable heated solid surfaces of known dimensions for detailed experiments.
• A control panel with advanced instruments for monitoring temperature, power input, and fan speed.
• An integrated anemometer to measure air velocity within the duct.

This setup is ideal for both classroom demonstrations and industrial research, enabling precise measurement and prediction of heat transfer coefficients, temperature profiles, and heat flux.

Features

• Dual Convection Studies: Analyze heat transfer through free convection and forced convection.
• Interchangeable Heating Modules: Conduct experiments with flat, finned, and pinned surfaces.
• Advanced Instrumentation: Includes temperature measurement, power control, and fan speed control for precise experimentation.
• Airflow Monitoring: Equipped with a portable anemometer to measure air velocity and temperature profiles.
• Versatile Design: Customizable settings for heating power, fan speed, and data acquisition (optional DAQ integration).

Experiments

1. Relationship between input power and surface temperature for free convection.
2. Comparison of heat transfer efficiency between free and forced convection on various surfaces.
3. Study of temperature distribution along extended surfaces.
4. Heat transfer surface efficiency comparison for different geometries.
5. Analysis of Nusselt number and heat transfer coefficients.
6. Temperature profile analysis along pinned and finned surfaces.

Specifications

• Air Duct: Fitted with axial fan for controlled airflow.
• Heating Elements: Includes 3 geometries for diverse studies.
• Adjustable Controls: Continuously variable heating power and fan power.
• Measurement Tools:
  • Portable anemometer for airflow and velocity.
  • Digital displays for temperatures, heating power, and air velocity.
• Data Acquisition (Optional): Microprocessor-based system for real-time data monitoring and analysis.
• Power Supply: 230V, 50Hz, 1 phase (custom options available).

Why Choose SCIENTICO?

SCIENTICO delivers reliable and durable apparatus designed to meet global standards. Our Free & Forced Convection Heat Transfer Apparatus ensures accurate results, ease of operation, and advanced monitoring options for all heat transfer experiments.

 

Computerized Boiling Heat Transfer Apparatus (Model No. SCI - 823)
SCIENTICO proudly presents the Computerized Boiling Heat Transfer Apparatus, a cutting-edge solution for demonstrating the principles of heat transfer and evaporation. Designed for precision and reliability, this apparatus is essential for heat transfer experiments in modern laboratories.

Our advanced apparatus features a transparent process tank, enabling clear observation of evaporation at the heated cylinder, which mimics a fire tube heated from the inside. The built-in water-cooled condenser ensures continuous boiling using an environmentally friendly, special low-boiling liquid. Equipped with state-of-the-art sensors, this apparatus provides accurate measurements displayed on digital screens and can be seamlessly integrated with a PC via USB for data acquisition.

Key Features:

• Comprehensive unit to study evaporation in steam boiler fire tubes.
• Integrated software for PC-based data processing via LabVIEW.
• Environmentally friendly operation using low-boiling liquids.
• Observation of different evaporation modes: nucleate and film boiling.
• Digital displays for real-time data monitoring.
• Analysis of heat transfer coefficients under varying temperature and pressure conditions.

Specifications:

• Heater: 250W power, adjustable; Surface area: 0.001875m².
• Cooler: Copper coil with 80mm diameter; Surface area: 0.0578m².
• Tank Capacity: 10L.
• Measuring Ranges:
  • Pressure: 0–4 bar absolute.
  • Flow Rate: 0.05–1.8 L/min.
  • Temperature Thermocouple: 0–200°C.
• Power Requirement: 230V, 50/60Hz, 1 phase (120V, 60Hz optional).

Dimensions and Weight:

• Size: 900x450x820 mm.
• Weight: 60 kg (approx.).

Why Choose SCIENTICO?

As a trusted lab equipment manufacturer and heat transfer lab equipment exporter, SCIENTICO delivers reliable, high-quality apparatuses to meet global laboratory standards. We take pride in offering solutions tailored to academic and industrial needs.

Q&A Section

Q1. What makes the Computerized Boiling Heat Transfer Apparatus ideal for laboratories?
A1. This apparatus is specifically designed to provide accurate, real-time insights into the evaporation process. It enables the study of nucleate and film boiling while offering seamless integration with PC software for advanced data analysis.

Q2. Can this apparatus be used for educational purposes?
A2. Yes, it is perfect for educational setups, allowing students to observe critical heat transfer processes and calculate coefficients for various conditions.

Q3. What industries benefit most from this apparatus?
A3. This equipment is widely used in academic institutions, research laboratories, and industries focused on thermodynamics and heat transfer studies.

Q4. Why is SCIENTICO a preferred choice?
A4. SCIENTICO is a leading heat transfer lab equipment manufacturer and exporter, renowned for delivering high-quality, durable, and precision-engineered products worldwide

Computerized Composite Wall Apparatus (Model No. SCI-825)
SCIENTICO, a leading lab equipment manufacturer and heat transfer lab equipment exporter, introduces the Computerized Composite Wall Apparatus. This advanced apparatus is ideal for conducting experiments on heat conduction through various metals, offering unmatched precision and educational value for research laboratories and academic institutions.

This apparatus allows for the analysis of thermal conductivity and resistance in different metals, with up to two samples tested simultaneously to study multi-layered heat conduction. The upper section of the sample is heated using a continuous heater, while a Peltier element cools the lower section. Temperature readings are captured by thermocouples at both ends, enabling precise analysis. Integrated with microprocessor-based instrumentation and user-friendly software, the system offers comprehensive data acquisition and educational aids.

Key Features:

• Study time dependency until steady-state heat conduction is achieved.
• Calculate the thermal conductivity (λ) and thermal resistance of different metals.
• Analyze the effects of sample length and material properties on heat conduction.
• Investigate heat transfer through series-connected multi-layered samples.
• Integrated educational software with explanatory texts and visuals.
• Seamless PC connectivity for data acquisition via USB.

Specifications:

• Heating System:
  • Adjustable heater, 30W.
  • Temperature limitation: 150°C.
• Cooling System: Peltier element with 56.6W cooling capacity.
• Metal Samples:
  • Diameter: Ø 20mm.
  • Lengths:
    • 20mm and 40mm samples (Copper, Steel, Stainless Steel, Brass, Aluminum).
    • 40mm aluminum sample with a turned groove.
• Measuring Ranges:
  • Temperature: 4x 0–325°C.
  • Heating Power: 0–50W.
• Power Requirements: 230V, 50/60Hz, 1 phase.

Dimensions and Weight:

• Size: 700x450x400 mm.
• Weight: 20 kg (approx.).

Why Choose SCIENTICO?

With years of experience, SCIENTICO is a trusted name in the industry as a heat transfer lab equipment manufacturer and exporter. Our products are designed with precision, durability, and adherence to global quality standards to cater to laboratories worldwide.

Q&A Section

Q1. What experiments can be conducted with the Computerized Composite Wall Apparatus?
A1. The apparatus allows for the calculation of thermal conductivity, analysis of thermal resistance, and the study of heat conduction through single and multi-layered metals.

Q2. How does this apparatus enhance learning?
A2. The integrated educational software provides detailed explanations and visual aids, helping users understand theoretical concepts and practical applications.

Q3. Can different materials be tested simultaneously?
A3. Yes, the apparatus can accommodate two samples simultaneously, enabling comparative analysis of different materials.

Q4. Why is SCIENTICO a preferred brand for laboratory equipment?
A4. SCIENTICO stands out as a premier heat transfer lab equipment manufacturer and exporter, delivering robust, high-quality apparatuses tailored to global laboratory needs.

Model No: SCI-124

SCIENTICO, a renowned manufacturer and exporter of heat transfer lab equipment, presents the Computerized Steady State & Non-Steady Heat Transfer Apparatus. This advanced apparatus is designed to analyze heat conduction in both steady and transient states, offering precise temperature distribution analysis across different metallic samples. Ideal for research and educational purposes, it provides in-depth understanding of heat transfer phenomena in solids.

Key Features:

• Comprehensive Heat Analysis: Study steady and transient heat conduction in solid metallic samples.
• Temperature Profiling: Record temperature/time profiles using 12 measurement points on each sample.
• Thermal Conductivity Calculation: Determine the thermal conductivity (λ) of various metals with high accuracy.
• Digital Integration: Real-time data display on digital panels, with USB connectivity for PC-based analysis.
• Precise Heat Source Control: Regulated heating system ensures consistent and accurate heat application.
• Cooling System: Integrated water-cooling mechanism with adjustable flow rate to generate temperature jumps.
• Versatile Applications: Suitable for academic institutions, research labs, and industrial training centers.

Specifications:

Heating System:

• Heater Output: 800W
• Temperature Range: 20°C to 85°C
• Heating Tank Capacity: 2L

Cooling System:

• Cooling Tank Capacity: 0.5L
• Elevated Tank Capacity: 6L

Samples (Cylindrical, Ø 40mm):

• 3 Samples (450mm each): Copper, Aluminum, Brass
• 2 Samples (300mm each): Steel, Stainless Steel

Temperature Sensors:

• 12x Thermocouples (Type K) along the sample
• 2x Pt100 sensors in the cooling water
• 1x Pt100 sensor in the heating water

Measuring Ranges:

• Temperature: 0 to 100°C (14 measurement points)
• Power: 0 to 1000W
• Flow Rate: 0.1 to 2.5L/min

Power Requirements:

• 230V, 50Hz, 1 phase
• Compatible with 230V, 60Hz or 120V, 60Hz power supply

Dimensions & Weight:

• LxWxH: 1200x800x1600mm
• Approx. Weight: 120kg

Applications:

• Investigation of steady and transient heat conduction.
• Measurement of thermal conductivity for various metals.
• Analysis of temperature distribution over time and place.
• Research and demonstration in academic and industrial settings.

Why Choose SCIENTICO?

As a trusted lab equipment manufacturer and exporter, SCIENTICO offers precision-engineered products designed to meet international standards. The Computerized Steady State & Non-Steady Heat Transfer Apparatus is built with durability, accuracy, and user-friendliness in mind, making it a perfect addition to any laboratory or educational institution.

Q&A Section:

Q1. What types of experiments can be conducted with this apparatus?
A1. You can perform experiments on steady-state heat conduction, transient heat conduction, temperature/time profiling, and calculate thermal conductivity (λ) for various metals.

Q2. How is the data recorded and analyzed?
A2. Data is displayed digitally and can be transmitted via USB to a PC for detailed analysis using the included software.

Q3. What metals are included in the samples?
A3. The apparatus includes copper, aluminum, brass, steel, and stainless steel samples of varying lengths

Model No: SCI-127

Manufacturer and Exporter: SCIENTICO

SCIENTICO is a trusted manufacturer, exporter, and supplier of high-quality Dropwise and Filmwise Condensation Apparatus, designed to facilitate in-depth analysis of condensation heat transfer. This apparatus allows users to compare and study the surface heat transfer coefficients for dropwise condensation and filmwise condensation. It is an ideal solution for laboratories, educational institutions, and industrial research setups.

Description

Condensation is a critical phase-change heat transfer process, widely encountered in industrial applications such as steam power plants and refrigeration systems. This apparatus is specifically designed to enable visualization and analysis of the two key types of condensation:

1. Dropwise Condensation
2. Filmwise Condensation

The setup comprises a compact and efficient design, featuring a vertical frame with condensation tubes enclosed within a transparent glass cylinder. A steam generator integrated with the setup provides the required steam flow, while advanced instruments such as a digital temperature indicator, pressure gauge, and rotameter ensure precise measurement and control.

Features

• Dual Condensation Analysis: Study and compare the heat transfer coefficients of dropwise and filmwise condensation.
• Visualization Capability: Observe the condensation process through the transparent glass cylinder.
• Integrated Steam Generator: Ensures consistent steam supply with temperature control via a digital temperature controller.
• Advanced Instrumentation: Includes digital temperature indicators, pressure gauges, and rotameters for precise data monitoring.
• Controlled Water Flow: Separate valves to regulate water flow for individual condensation tubes.
• Compact Design: Easy to install and operate, suitable for both academic and industrial use.

Experimentation

• Study the differences between filmwise condensation and dropwise condensation on vertical surfaces.
• Visualize the condensation processes under different conditions.
• Determine the heat transfer coefficients for both types of condensation.

Technical Specifications

• Condensation Tubes: Enclosed within a transparent glass cylinder for visualization.
• Steam Generator: Fitted with a water level indicator and controlled via a digital temperature controller.
• Flow Regulation: Separate control valves for individual tubes.
• Instrumentation:
  • Digital temperature indicators.
  • Pressure gauge for monitoring steam pressure.
  • Rotameter for measuring cold water flow rates.
  • Measuring cylinder for condensate collection.

Applications

• Educational Labs: Ideal for heat transfer experiments in mechanical and chemical engineering courses.
• Industrial Research: Study heat transfer processes for enhanced system designs in steam power plants and refrigeration systems.

Why Choose SCIENTICO?

SCIENTICO ensures superior product quality by employing advanced manufacturing techniques and rigorous testing. We provide:

• Durable and reliable apparatus.
• Customization options tailored to client needs.
• Competitive pricing with global export services.

Computerized Composite Wall Apparatus (Model No. SCI-825)
SCIENTICO, a leading lab equipment manufacturer and heat transfer lab equipment exporter, introduces the Computerized Composite Wall Apparatus. This advanced apparatus is ideal for conducting experiments on heat conduction through various metals, offering unmatched precision and educational value for research laboratories and academic institutions.

This apparatus allows for the analysis of thermal conductivity and resistance in different metals, with up to two samples tested simultaneously to study multi-layered heat conduction. The upper section of the sample is heated using a continuous heater, while a Peltier element cools the lower section. Temperature readings are captured by thermocouples at both ends, enabling precise analysis. Integrated with microprocessor-based instrumentation and user-friendly software, the system offers comprehensive data acquisition and educational aids.

Key Features:

• Study time dependency until steady-state heat conduction is achieved.
• Calculate the thermal conductivity (λ) and thermal resistance of different metals.
• Analyze the effects of sample length and material properties on heat conduction.
• Investigate heat transfer through series-connected multi-layered samples.
• Integrated educational software with explanatory texts and visuals.
• Seamless PC connectivity for data acquisition via USB.

Specifications:

• Heating System:
  • Adjustable heater, 30W.
  • Temperature limitation: 150°C.
• Cooling System: Peltier element with 56.6W cooling capacity.
• Metal Samples:
  • Diameter: Ø 20mm.
  • Lengths:
    • 20mm and 40mm samples (Copper, Steel, Stainless Steel, Brass, Aluminum).
    • 40mm aluminum sample with a turned groove.
• Measuring Ranges:
  • Temperature: 4x 0–325°C.
  • Heating Power: 0–50W.
• Power Requirements: 230V, 50/60Hz, 1 phase.

Dimensions and Weight:

• Size: 700x450x400 mm.
• Weight: 20 kg (approx.).

Why Choose SCIENTICO?

With years of experience, SCIENTICO is a trusted name in the industry as a heat transfer lab equipment manufacturer and exporter. Our products are designed with precision, durability, and adherence to global quality standards to cater to laboratories worldwide.

Q&A Section

Q1. What experiments can be conducted with the Computerized Composite Wall Apparatus?
A1. The apparatus allows for the calculation of thermal conductivity, analysis of thermal resistance, and the study of heat conduction through single and multi-layered metals.

Q2. How does this apparatus enhance learning?
A2. The integrated educational software provides detailed explanations and visual aids, helping users understand theoretical concepts and practical applications.

Q3. Can different materials be tested simultaneously?
A3. Yes, the apparatus can accommodate two samples simultaneously, enabling comparative analysis of different materials.

Q4. Why is SCIENTICO a preferred brand for laboratory equipment?
A4. SCIENTICO stands out as a premier heat transfer lab equipment manufacturer and exporter, delivering robust, high-quality apparatuses tailored to global laboratory needs.

SCIENTICO, a trusted name in the field of laboratory equipment, introduces the Natural Convection Apparatus—an essential tool for studying natural convection heat transfer. This apparatus is meticulously designed for educational and research purposes, ensuring precise results and reliable performance.

Key Features:

• Efficient Heat Transfer Study:

  • Analyze heat loss from a vertical tube through natural convection.
  • Minimize radiation losses with a polished brass tube surface.

• Robust and Practical Design:

  • Vertical brass tube enclosed in a high-quality rectangular duct for undisturbed surroundings.
  • Transparent acrylic window for clear visualization of heat transfer processes.

• Advanced Measurement Systems:

  • Digital Temperature Indicator with multi-channel switch for accurate temperature readings.
  • Adjustable heat input measured via Digital Ammeter and Voltmeter, controlled through a Variac.

Range of Experiments:

1. Demonstrate the super thermal conductivity of a heat pipe.
2. Compare the performance of heat pipes made of copper, stainless steel, and brass.
3. Plot temperature vs. time response for three different pipes.
4. Analyze the temperature distribution along the length of the pipes.

Experimental Setup:

• Brass Tube:

  • Polished surface to minimize radiation losses and ensure precise natural convection study.

• Rectangular Duct:

  • Open-top and bottom design to simulate undisturbed natural convection.

• Acrylic Window:

  • Transparent side panel for enhanced visualization during experiments.

• Heating Element:

  • High-quality electric heating element for consistent heating of the brass tube.

• Measurement Tools:

  • Digital Ammeter and Voltmeter for precise measurement of heat input.
  • Multi-channel temperature sensors and digital display for accurate temperature monitoring.

Applications:

• Widely used in thermal engineering laboratories for studying natural convection.
• Ideal for academic institutions to demonstrate fundamental heat transfer concepts.
• Useful in industrial research to understand heat dissipation in natural convection systems.

Why Choose SCIENTICO?

As a renowned manufacturer and exporter of laboratory equipment, SCIENTICO is dedicated to delivering premium-quality apparatus tailored to meet global educational and research needs. The Natural Convection Apparatus is engineered to ensure durability, precision, and affordability.

Frequently Asked Questions (FAQs):

Q1. What is the purpose of the polished brass tube?
A1. The polished surface reduces radiation losses, ensuring accurate natural convection measurements.

Q2. Can the heat input be adjusted?
A2. Yes, the heat input can be varied using a Variac, and its value is precisely measured by digital instruments.

Q3. What makes this apparatus suitable for research?
A3. The inclusion of advanced temperature sensors, digital displays, and a transparent duct ensures reliable, research-grade performance.

Model No: SCI-814

SCIENTICO, a leading manufacturer and exporter of precision laboratory equipment, presents the Free and Forced Convection Apparatus. This advanced apparatus is designed for in-depth analysis of convection heat transfer, providing students, researchers, and engineers with a robust platform to study free and forced convection across various geometries.

Key Features:

• Versatile Convection Analysis

• Comprehensive Heat Transfer Study

• Efficient Design

• Advanced Instrumentation

Applications:

1. Study the effects of free and forced convection on heat transfer across different geometries.
2. Investigate transient heating processes.
3. Determine convective heat transfer coefficients and characteristic numbers for engineering and research applications.
4. Ideal for academic institutions, research labs, and industrial R&D centers.

Technical Specifications:

• Air Duct:

  • Flow cross-section: 120x120mm.
  • Height: approx. 0.6m.

• Heating Elements:

  • Tube Bundle:
    • 23 tubes with one heated tube.
    • Heating power: 20W.
    • Heat transfer area: 0.001m².
  • Cylinder with Even Surface Temperature:
    • Heating power: 20W.
    • Heat transfer area: 0.0112m².
  • Flat Plate:
    • Heating power: 40W.
    • Heat transfer area: 2x 0.01m².
  • Cylinder with Heating Foil:
    • Heating power: 40W.
    • Heat transfer area: 0.0112m².

• Axial Fan:

  • Max. Flow rate: 500m³/h.
  • Max. Pressure difference: ~950Pa.
  • Power consumption: 90W.

• Measuring Ranges:

  • Air velocity: 0–10m/s.
  • Temperature: 4x 0–325°C.
  • Heating power: 0–50W.

• Power Requirements:

  • 230V, 50Hz, 1 phase.
  • Compatible with 230V, 60Hz, or 120V, 60Hz systems.

Dimensions and Weight:

• Size: 800x600x800mm.
• Weight: 30kg.

Software Features:

• Educational Tools:

  • Interactive software enhances understanding of convection principles.
  • Data visualization tools for streamlined analysis.

• System Operation:

  • Monitor and control heating power and airflow rates seamlessly.

• Real-Time Data Acquisition:

  • Export data for in-depth analysis and report generation.

Why Choose SCIENTICO?

• Renowned for high-quality laboratory instruments trusted globally.
• Customizable solutions to meet specific experimental needs.
• Competitive pricing without compromising on performance or durability.

FAQs:

Q1. Can I study both free and forced convection with this apparatus?
A1. Yes, this apparatus is designed to analyze both free and forced convection, making it highly versatile for heat transfer studies.

Q2. How accurate is the temperature measurement?
A2. The system includes precise temperature sensors with a range of 0–325°C, ensuring reliable and accurate measurements.

Q3. Is this suitable for teaching purposes?
A3. Absolutely! The software's educational modules make it an excellent tool for academic institutions

SCIENTICO presents the Guarded Hot Plate with Data Acquisition, a cutting-edge apparatus designed to measure the thermal conductivity of non-metallic materials. Built to conform with ASTM C177-04 standards, this bench-top unit is ideal for academic institutions, research laboratories, and material manufacturers focused on insulation and thermal analysis.

Product Overview:

The apparatus features a central heater with hot plates, a guard ring heater, and two water-cooled cold plates. Specimens are sandwiched between the hot and cold plates for uniform heat conduction analysis. A fully insulated test cabinet ensures precise results. With integrated software for data acquisition and educational purposes, this unit enables real-time monitoring and seamless PC connectivity via USB.

Key Features:

• Accurate Thermal Analysis: Determines thermal conductivity (k) of various materials at different temperatures.
• Comprehensive Software Integration: Educational software for data acquisition, system operation, and result visualization.
• Advanced Design: Panelized instruments mounted on a user-friendly control panel for effortless operation.
• Versatile Applications: Suitable for group demonstrations, research, and industrial use in insulation material development.
• Robust Build: Durable construction with superior quality components ensures long service life.

Specifications:

1. Hot Plate:

   • Heater: 500 W with adjustable control knob.
   • Guard Ring Heater: 500 W with adjustable control knob.

2. Cold Plates:

   • Water-cooled for effective heat dissipation.

3. Measuring Ranges:

   • Temperature: 0–325°C (2x sensors).
   • Heating Power: 0–450 W.

4. Instrumentation:

   • Integrated temperature sensors for precise readings.
   • Microprocessor-based data acquisition system.
   • USB connectivity for PC integration.

5. Service Module:

   • Includes a power supply, heater control unit, power measurement system, and temperature indicators.

Service Requirements:

• External water supply for cooling.
• 230V, 50Hz/60Hz, 1-phase AC power supply.

Dimensions and Weight:

• Dimensions: 800x600x800mm (LxWxH).
• Weight: Approx. 30 kg.

Applications:

• Testing and determining thermal conductivity of solid and non-metallic materials.
• Research on insulating materials in academic and industrial settings.
• Demonstrations for thermal conductivity principles in educational environments.

Why Choose SCIENTICO?

• Unmatched Precision: Adhering to ASTM standards ensures industry-grade accuracy.
• Trusted Expertise: Renowned for manufacturing high-quality laboratory and research equipment.
• Customer Support: Dedicated to providing affordable solutions with superior post-purchase support.

FAQs:

Q1. Can this apparatus test multiple materials?
A1. Yes, the setup is designed to measure the thermal conductivity of various non-metallic solids under different temperature conditions.

Q2. Is the data acquisition software user-friendly?
A2. Absolutely. The integrated software is intuitive and includes educational tools for streamlined operation and analysis.

Q3. Does it require continuous water flow?
A3. Yes, an external water supply is necessary for cooling the cold plates

Model No: SCI-862

SCIENTICO brings the advanced Heat Transfer Through Lagged Pipe with Data Acquisition apparatus, an ideal tool for studying heat conduction, one of the primary mechanisms of heat transfer. Designed for precision and ease of use, this apparatus enables comprehensive analysis of linear and radial heat conduction in various materials, making it a versatile addition to academic institutions, research laboratories, and industrial settings.

Product Overview:

This experimental unit provides a detailed investigation into the principles of heat conduction in solid bodies. Equipped with both linear and radial setups, it allows the determination of key variables like temperature profiles and thermal conductivity (λ). The system is enhanced with temperature sensors and software-based data acquisition, enabling real-time monitoring and analysis on a PC.

Key Features:

• Linear Heat Conduction Analysis:

  • Study heat conduction through various materials with insulated measuring objects.
  • Determine temperature profiles under different conditions and disturbances.
  • Calculate the thermal conductivity of materials.

• Radial Heat Conduction Analysis:

  • Analyze heat conduction through circular discs.
  • Measure temperature profiles and thermal conductivity for radial setups.

• Advanced Software Integration:

  • Educational software for data acquisition and operation.
  • USB connectivity for seamless data transfer to PCs.

• Versatile Applications:

  • Ideal for educational purposes, research laboratories, and manufacturing industries.

Specifications:

1. Linear Heat Conduction:

   • Measuring objects (insulated):
     • Steel: DxL = 25x30mm.
     • Brass: DxL = 15x30mm, 25x30mm.
   • Heater: 140W.

2. Radial Heat Conduction:

   • Disc Dimensions: DxL = 110x4mm.
   • Heater: 125W (center of the disc).
   • Cooling Coil: Positioned at the outer edge of the disc.

3. Measuring Ranges:

   • Temperature: 2x 0–325°C.
   • Heating Power: 0–450W.

4. Instrumentation:

   • Temperature sensors at key points for accurate readings.
   • Digital displays for easy data visualization.

Service Requirements:

• Power Supply:
  • 230V, 50Hz/60Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.
• Bench space for setup.
• Access to a constant water supply.

Dimensions and Weight:

• Dimensions: 800x600x800mm (LxWxH).
• Weight: Approx. 35kg.

Why Choose SCIENTICO?

• Unparalleled Precision: High-quality sensors and software for accurate results.
• Innovative Design: Combines advanced technology with user-friendly operation.
• Trusted Expertise: A renowned name in manufacturing laboratory and research equipment.

FAQs:

Q1. What materials can be analyzed with this apparatus?
A1. The system is equipped to analyze heat conduction in various solid materials such as steel and brass.

Q2. Is the software included in the package?
A2. Yes, the apparatus comes with educational and operational software for data acquisition and analysis.

Q3. Does this unit require external cooling?
A3. Yes, a constant water supply is required for cooling the radial heat conduction setup

Model No: SCI-865

The Parallel and Counter Flow Heat Exchanger with Data Acquisition by SCIENTICO is a versatile experimental unit designed to study heat transfer processes in concentric tube heat exchangers under both parallel and counter-flow conditions. This advanced apparatus is perfect for educational institutions, research facilities, and industrial applications focused on heat transfer analysis and optimization.

Product Overview:

This apparatus enables a detailed examination of heat transfer behavior, including the effects of flow rate and temperature differences on heat transfer efficiency. The unit integrates a data acquisition system, allowing real-time monitoring and analysis through dedicated software. Its compact design and robust construction ensure reliability and ease of use for diverse applications.

Key Features:

• Versatile Heat Transfer Modes:

  • Study parallel flow and counter-flow configurations with simple valve adjustments.

• Advanced Data Monitoring:

  • Integrated software for system operation, data acquisition, and educational purposes.
  • USB connectivity for seamless PC integration.

• Optimized Learning and Research:

  • Analyze heat transfer coefficients and evaluate performance across flow configurations.
  • Demonstrate the influence of flow rates and temperature variations on heat transfer.

• Durable and Efficient Design:

  • High-quality stainless steel concentric tubes with effective insulation.
  • Equipped with a robust service module for long-term use.

Specifications:

1. Construction:

   • Two sections of insulated stainless steel concentric tubes.

2. Service Module:

   • Hot Water Tank: Integrated with a pump.
   • Heater: 3000W capacity.
   • Flow meters for both hot and cold water systems.

3. Instrumentation:

   • Temperatures: 6 sensors for accurate monitoring.
   • Temperature control unit for precise operation.
   • Stirrer: Adjustable speed (0–500 RPM).

4. Measuring Ranges:

   • Temperature: 0–325°C.
   • Heating Power: 0–3000W.

Service Requirements:

• Power Supply:
  • 230V, 50Hz/60Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.
• Continuous water supply.
• Adequate bench space for setup.

Dimensions and Weight:

• Dimensions: 1200x600x800mm (LxWxH).
• Weight: Approx. 40kg.

Applications:

• Educational training for heat transfer principles.
• Research on heat exchanger performance.
• Industrial studies for heat exchanger optimization.

Why Choose SCIENTICO?

• Precision Engineering: High-quality materials and state-of-the-art design.
• Integrated Data Acquisition: Advanced software for real-time analysis.
• User-Friendly Operation: Easy switching between flow configurations.

FAQs:

Q1. What is the primary purpose of this heat exchanger?
A1. It is designed to study and compare heat transfer processes under parallel flow and counter-flow conditions.

Q2. Can the apparatus be used for research purposes?
A2. Absolutely, its advanced data acquisition system makes it suitable for in-depth research.

Q3. What materials are used in its construction?
A3. The heat exchanger tubes are made of stainless steel, ensuring durability and high thermal conductivity

Model No: SCI-742

Manufacturer and Exporter: SCIENTICO

SCIENTICO is a trusted name in the design, manufacturing, and supply of Shell & Tube Heat Exchangers. Our cutting-edge solutions are tailored to meet the needs of diverse industries, including chemical processing, power generation, oil and gas, and HVAC systems.

Description

The Shell & Tube Heat Exchanger is designed to provide exceptional heat transfer performance in various applications. It consists of a shell (outer vessel) housing multiple tubes, enabling heat exchange between two fluids—one flowing through the tubes and the other around them within the shell.

This exchanger is ideal for high-pressure and high-temperature operations, offering superior efficiency, durability, and reliability. Its modular design ensures flexibility in application and easy integration into existing systems.

Features

• Robust Construction: Manufactured with premium-grade materials like stainless steel, carbon steel, or other alloys to ensure durability.
• Versatile Applications: Suitable for both heating and cooling purposes across multiple industries.
• High Efficiency: Optimized design for efficient heat transfer with minimal energy loss.
• Customizable Configurations: Available in various sizes, tube layouts, and materials to suit specific requirements.
• Ease of Maintenance: Simple design with accessible components for quick cleaning and servicing.

Specifications

1. Tube Material: Stainless steel, copper, or alloy options available.

2. Tube Design:

   • Fixed, floating head, or U-tube configurations.
   • Tube length and diameter customizable.

3. Shell Material: Stainless steel, carbon steel, or custom options.

4. Operating Conditions:

   • High-pressure and temperature resistance.
   • Suitable for single-phase and two-phase heat transfer.

5. Capacity: Ranges from small-scale units to large industrial models.

6. Thermal Design: Designed based on specific heat load and flow requirements.

Applications

• Chemical Processing: Heat transfer in reactors, distillation, and chemical reactions.
• Oil & Gas: Cooling or heating of fluids in upstream and downstream operations.
• Power Plants: Steam condensation and waste heat recovery.
• HVAC Systems: Efficient heat exchange for cooling and heating.
• Food & Beverage: Heat pasteurization and sterilization processes.

Why Choose SCIENTICO?

With decades of expertise, SCIENTICO excels in delivering Shell & Tube Heat Exchangers that meet stringent quality standards. Our focus on precision engineering, innovative designs, and customer-centric solutions ensures unmatched performance and satisfaction.

Contact us today to learn more about how our Shell & Tube Heat Exchangers can optimize your processes and enhance operational efficiency.

Computerized Emissivity Measurement Apparatus (Model No. SCI-824)
SCIENTICO presents the Computerized Emissivity Measurement Apparatus, a state-of-the-art solution for understanding heat transfer through radiation. This apparatus is meticulously designed to conduct fundamental experiments that deepen the understanding of emissivity, thermal radiation, and related principles, making it an essential tool for laboratories and educational institutions.

At the core of the apparatus is a metallic sample heated by a focused halogen light beam. The beam, generated by a 150W adjustable halogen lamp and a parabolic reflector, concentrates radiation onto the sample. A thermopile measures the emitted radiation, with the capability to analyze radiation at varying distances using a movable carriage. The system includes educational software to simplify complex theories with visuals and explanatory texts, enhancing learning and experimentation.

Key Features:

• Demonstrates the effect of surface properties on heat transfer by radiation.
• Verification of key heat transfer laws:
  • Lambert’s Inverse-Square Law
  • Stefan-Boltzmann Law
  • Kirchhoff’s Law
• Study transient behavior and perform power balance analysis.
• Microprocessor-based instrumentation for precise measurements.
• Data acquisition and system operation via USB and user-friendly software.
• Maximum temperature capability: 560°C.

Specifications:

• Heating System: Halogen lamp, 150W, adjustable.
• Sample Materials and Dimensions:
  • Aluminum: Ø 20mm (matt anodized, painted, and mixed finishes).
  • Copper: Ø 20mm (nickel-plated and oxidized).
  • Steel: Ø 20mm (oxidized).
• Measuring Ranges:
  • Temperature: 0–780°C.
  • Radiation Intensity: 0–1250 W/m².
• Power Requirements: 230V, 50Hz/60Hz, 1 phase; 120V, 60Hz, 1 phase optional.

Dimensions and Weight:

• Size: 700x450x400 mm.
• Weight: 20 kg (approx.).

Why Choose SCIENTICO?

As a globally recognized lab equipment manufacturer and heat transfer lab equipment exporter, SCIENTICO delivers precision-engineered, high-quality apparatuses designed to meet diverse laboratory requirements. Our commitment to innovation and customer satisfaction ensures reliable solutions for research and education.

Q&A Section

Q1. What experiments can be conducted with the Computerized Emissivity Measurement Apparatus?
A1. This apparatus allows users to verify laws like Stefan-Boltzmann’s Law, Kirchhoff’s Law, and Lambert’s Law, analyze surface effects on radiation, and study transient heat behavior.

Q2. How does the apparatus aid in educational learning?
A2. The system integrates educational software with illustrations and explanatory content, making it ideal for teaching the fundamentals of heat transfer through radiation.

Q3. What industries and institutions benefit from this product?
A3. Academic institutions, research laboratories, and industries focused on thermodynamics and material studies benefit significantly from this apparatus.

Q4. Why is SCIENTICO a trusted brand?
A4. SCIENTICO is a leading heat transfer lab equipment manufacturer and exporter, known for delivering robust, precise, and globally compliant laboratory instruments.

Model No: SCI-0823

SCIENTICO, a leading lab equipment manufacturer and heat transfer lab equipment exporter, presents the Computerized Stefan Boltzman Apparatus, a cutting-edge tool designed to study heat transfer through radiation and convection under various pressure conditions. This advanced apparatus is ideal for academic and research institutions, enabling precise experiments and accurate data collection.

Key Features:

• Vacuum Experiments: Analyze heat transfer by radiation in vacuum conditions.
• Pressure Variation: Perform experiments at ambient pressure, vacuum, or positive gauge pressure.
• Radiation Analysis: Determine radiation coefficients and study heat transport through different gases such as air, nitrogen, helium, and carbon dioxide.
• Convection and Radiation: Explore the combined effects of convection and radiation on heat transfer.
• Advanced Measurements: Measure heat transfer coefficients using experimental and theoretical approaches, including Nusselt number calculations.
• Digital Data Integration: All measured values are displayed digitally and can be transmitted to a PC via USB for software-based analysis.

Applications:

• Study of heat transfer by radiation under vacuum.
• Analysis of convection and radiation at various pressure levels.
• Comparison of heat transfer in different gases.
• Determination of heat transfer coefficients for educational and research purposes.

Specifications:

Heating Element:

• Output: 20W
• Radiation Surface Area: 61cm²

Pressure Vessel:

• Pressure Range: -1 to 1.5 bar
• Volume: 11L

Vacuum Pump:

• Power Consumption: 250W
• Nominal Suction Capacity: 5m³/h
• Final Pressure: 3×10⁻³ mbar (with and without gas ballast)

Measuring Ranges:

• Negative Pressure: 0.5×10⁻³ to 1000mbar
• Positive Pressure: -1 to 1.5 bar relative
• Temperature: 0 to 250°C
• Power: 0 to 23W

Power Requirements:

• 230V, 50Hz, 1 phase
• 230V, 60Hz, 1 phase; 120V, 60Hz, 1 phase

Dimensions & Weight:

• LxWxH: 1400x800x1500mm
• Weight: Approx. 130kg

Why Choose SCIENTICO?

As a trusted heat transfer lab equipment manufacturer and exporter, SCIENTICO ensures precision, reliability, and durability in all its products. Our Computerized Stefan Boltzman Apparatus is meticulously designed to meet global standards, offering unmatched accuracy for educational and research needs.

Q&A Section

Q1. What is the main purpose of the Computerized Stefan Boltzman Apparatus?
A1. The apparatus is designed to study heat transfer through radiation and convection under varying pressure conditions, including vacuum.

Q2. Can the apparatus analyze different gases for heat transfer?
A2. Yes, it allows comparison of heat transfer in various gases such as air, nitrogen, helium, and carbon dioxide.

Q3. How is the data collected and analyzed?
A3. The apparatus includes digital displays for real-time data, which can also be transmitted to a PC via USB for detailed analysis using included software.

Q4. What makes SCIENTICO’s equipment reliable?
A4. SCIENTICO is a leading lab equipment manufacturer and heat transfer lab equipment exporter, known for delivering high-precision, robust, and durable equipment tailored for laboratory and industrial use.

SCIENTICO, a leading manufacturer and exporter of heat transfer lab equipment, introduces the Emissivity Measurement Apparatus. This apparatus is meticulously designed to determine the emissivity of a test plate and analyze its variation with temperature. With its precision engineering and robust construction, it is an essential tool for academic and industrial research in heat transfer.

Key Features:

• Accurate Emissivity Measurement: Measure the emissivity of a test plate under controlled conditions.
• Black Plate Comparison: Identical blackened plate allows for precise differentiation in emissivity.
• Controlled Environment: Enclosure with glass panel ensures stable atmospheric conditions.
• Digital Monitoring: Equipped with a digital voltmeter and ammeter for precise measurement of input parameters.
• Independent Variacs: Separate power controls for heaters ensure equal temperatures for both plates.
• Temperature Sensors: Precisely monitor the temperatures of plates and the surrounding environment.

Experimentation Capabilities:

1. Emissivity Determination: Determine the emissivity of the test plate with high accuracy.
2. Temperature Variation Study: Study how the emissivity of the test plate changes with absolute temperature.

Technical Specifications:

• Test Plate Design:

  • Mica heater sandwiched between two circular plates.
  • Identical black plate for emissivity comparison.

• Enclosure:

  • With one side glass for maintaining steady atmospheric conditions.

• Temperature Measurement:

  • Sensors for test plate, black plate, and surroundings.

• Power Supply:

  • Electric heaters powered via separate variacs.
  • Digital voltmeter and ammeter for input monitoring.

Applications:

• Ideal for academic research on radiation heat transfer.
• Widely used in industrial R&D labs for studying material emissivity.
• A perfect addition to heat transfer laboratory setups.

Why Choose SCIENTICO?

As a trusted name in laboratory equipment manufacturing and exporting, SCIENTICO offers high-quality, durable, and reliable apparatuses that meet international standards. The Emissivity Measurement Apparatus is a testament to our commitment to precision and performance.

Frequently Asked Questions (FAQs):

Q1. What is the purpose of the blackened plate in this apparatus?
A1. The black plate provides a reference for emissivity measurement, as its emissivity is close to 1.

Q2. How is temperature monitored in the system?
A2. The apparatus includes temperature sensors for the test plate, black plate, and surrounding atmosphere, ensuring accurate readings.

Q3. Can the apparatus handle varying temperatures?
A3. Yes, the separate variacs allow precise control of the plate temperatures for experimentation.

Model No: SCI-863

The Plate Type Heat Exchanger with Data Acquisition by SCIENTICO is a cutting-edge experimental apparatus designed for the study of heat transfer in plate heat exchangers under parallel and counter-flow conditions. This unit is ideal for academic institutions, research laboratories, and industrial settings requiring accurate analysis of heat transfer processes.

Product Overview:

This apparatus enables comprehensive analysis of heat transfer phenomena, allowing users to observe the effects of flow rate and temperature variation on heat transfer efficiency. With integrated data acquisition software, the system simplifies operation and enhances learning by providing real-time data and analytics.

Key Features:

• Versatile Heat Transfer Modes:

  • Demonstrates heat transfer under parallel and counter-flow conditions.

• Advanced Data Acquisition:

  • Microprocessor-controlled instrumentation with USB connectivity for seamless PC integration.
  • Real-time monitoring and analysis with educational software.

• Comprehensive Heat Transfer Studies:

  • Calculate heat transfer coefficients and analyze performance under varying conditions.
  • Demonstrates the impact of flow rates and temperature differences.

• Durable Construction:

  • High-grade stainless steel plates ensure long-lasting performance.
  • Compact and insulated design for efficient operation.

Specifications:

1. Construction:

   • Plate-type heat exchanger made from stainless steel.

2. Service Module:

   • Hot Water Tank: Integrated with a transfer pump.
   • Heater: 3000W capacity.
   • Flow meters for hot and cold water systems.
   • Temperature control unit for precision management.

3. Instrumentation:

   • Temperatures: 6 sensors for accurate readings.
   • Stirrer: Adjustable speed (0–500 RPM).

4. Measuring Ranges:

   • Temperature: 0–325°C.
   • Heating Power: 0–3000W.

Service Requirements:

• Power Supply:
  • 230V, 50Hz/60Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.
• Continuous water supply.
• Adequate bench space for setup.

Dimensions and Weight:

• Dimensions: 800x600x800mm (LxWxH).
• Weight: Approx. 30kg.

Applications:

• Academic studies in heat transfer processes.
• Research on the performance of plate heat exchangers.
• Industrial optimization of heat exchanger designs.

Why Choose SCIENTICO?

• High-Quality Engineering: Built with precision and durable materials.
• Real-Time Data Analysis: Integrated software for efficient learning and experimentation.
• Ease of Use: Simple operation with versatile flow configuration options.

FAQs:

Q1. What type of heat exchanger does this apparatus study?
A1. It is specifically designed for studying plate-type heat exchangers under parallel and counter-flow conditions.

Q2. Can this be used for industrial training?
A2. Yes, it is ideal for both academic and industrial training purposes.

Q3. Is the unit compatible with data acquisition systems?
A3. Yes, the apparatus is equipped with a microprocessor-based system and USB connectivity for real-time data acquisition.

Model No: SCI-897

The Shell and Tube Heat Exchanger with Data Acquisition by SCIENTICO is a premium experimental apparatus designed to study heat transfer in shell-and-tube heat exchangers under parallel and counter-flow conditions. Engineered for precision, this apparatus is perfect for educational institutions, research labs, and industrial training setups.

Product Overview:

This apparatus enables detailed analysis of heat transfer efficiency, allowing users to observe the effects of flow rates, temperature gradients, and heat transfer coefficients. Equipped with data acquisition software, the system offers real-time data recording and analysis, streamlining learning and experimentation processes.

Key Features:

• Versatile Flow Configurations:

  • Demonstrates parallel and counter-flow heat transfer operations.

• Advanced Data Acquisition:

  • Includes microprocessor-based instrumentation for precise data collection.
  • USB connectivity for seamless integration with PC and software.

• Comprehensive Study Capabilities:

  • Calculation of heat transfer coefficients.
  • Analysis of the impact of flow rates and temperature differences on heat transfer.

• Durable and Efficient Design:

  • Built with stainless steel for durability and optimal heat transfer.
  • Compact and insulated construction for efficient performance.

Specifications:

1. Construction:

   • Shell-and-tube heat exchanger crafted from stainless steel.

2. Service Module:

   • Integrated hot water tank with transfer pump.
   • Heater Capacity: 3000W.
   • Flow meters for hot and cold water monitoring.
   • Temperature control unit for precise regulation.

3. Instrumentation:

   • Temperatures: 6 sensors for accurate temperature readings.
   • Stirrer: Adjustable speed (0–500 RPM).

4. Measuring Ranges:

   • Temperature: 0–325°C.
   • Heating Power: 0–3000W.

Service Requirements:

• Power Supply:
  • 230V, 50Hz/60Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.
• Continuous water supply.
• Sufficient bench space for setup.

Dimensions and Weight:

• Dimensions: 800x600x800mm (LxWxH).
• Weight: Approx. 30kg.

Applications:

• Academic studies in heat transfer mechanisms.
• Research in optimizing heat exchanger performance.
• Industrial training for understanding shell-and-tube heat exchangers.

Why Choose SCIENTICO?

• Precision Engineering: Built for accuracy and long-lasting performance.
• Integrated Data Acquisition: Facilitates efficient learning with real-time analytics.
• Ease of Use: Simple operation with adaptable flow configurations.

FAQs:

Q1. What can this apparatus demonstrate?
A1. It demonstrates heat transfer in shell-and-tube heat exchangers under parallel and counter-flow conditions.

Q2. Is it suitable for research purposes?
A2. Yes, it is ideal for research and academic purposes.

Q3. Does it include data acquisition capabilities?
A3. Yes, it comes with software for system operation, data acquisition, and real-time analysis.

Critical Heat Flux Apparatus
SCIENTICO, a trusted lab equipment manufacturer and heat transfer lab equipment exporter, presents the Critical Heat Flux Apparatus, a high-quality solution for studying and analyzing the critical heat flux phenomena. Designed with precision, this apparatus is perfect for academic institutions and research laboratories aiming to enhance their understanding of heat transfer mechanisms.

Manufactured using premium-grade materials and advanced technology, this apparatus is robust, reliable, and built to deliver long-lasting performance. Its innovative design ensures accuracy in experiments, while its low maintenance requirements make it an economical choice for laboratories.

Key Features:

• Quality Approved: Built with superior materials for durability and reliability.
• Strong Structure: Ensures stability and precision during experiments.
• Low Maintenance: Designed for ease of use and minimal upkeep.
• Customizable packaging available to meet specific client needs.

Applications:

The Critical Heat Flux Apparatus is used for:

• Studying the critical heat flux phenomenon under different experimental conditions.
• Analyzing heat transfer efficiency in various systems.
• Understanding the boiling heat transfer process.

Why Choose SCIENTICO?

As a leading heat transfer lab equipment manufacturer and exporter, SCIENTICO delivers laboratory instruments that adhere to global quality standards. Our products are engineered to provide accurate results, ensuring the success of your experimental and educational endeavors.

Q&A Section

Q1. What is the primary use of the Critical Heat Flux Apparatus?
A1. The apparatus is used to study the critical heat flux phenomenon, an essential aspect of boiling heat transfer and thermal system design.

Q2. Is this apparatus suitable for educational purposes?
A2. Yes, the Critical Heat Flux Apparatus is designed for both research and teaching applications, making it ideal for universities and technical institutions.

Q3. Why is low maintenance an advantage?
A3. Low maintenance ensures the apparatus is cost-effective and reduces downtime, making it convenient for regular use in laboratories.

Q4. Why should I choose SCIENTICO products?
A4. SCIENTICO is renowned for its high-quality lab equipment and expertise as a heat transfer lab equipment manufacturer and exporter, offering reliable and innovative solutions globally.

SCIENTICO, a premier manufacturer and exporter of thermal engineering lab equipment, presents the Lagged Pipe Apparatus. This apparatus is specifically designed for analyzing heat transfer through insulated pipes, offering precise and reliable measurements of thermal resistance and conductivity. It is a vital tool for engineering laboratories and industrial R&D facilities.

Key Features:

• Comprehensive Thermal Analysis:

  • Determine total thermal resistance and thermal conductivity of the lagged pipe.
  • Study the temperature gradient across the lagged material.

• Advanced Experimentation Capabilities:

  • Conduct experiments at various input levels for detailed analysis.
  • Plot heat input versus thermal conductivity for deeper insights.

• High-Quality Construction:

  • Sturdy and durable setup with precision-engineered components.
  • Tested for quality assurance to ensure reliable performance.

• Cost-Effective Solution:

  • Available at competitive prices, offering excellent value for money.

Range of Experiments:

1. Determine the total thermal resistance and thermal conductivity of a lagged pipe.
2. Plot temperature gradients across the lagging material.
3. Conduct experiments with variable input levels for comprehensive analysis.
4. Study the relationship between heat input and thermal conductivity in the lagged pipe.

Experimental Setup:

• Lagged Pipes:

  • Three insulated pipes of varying specifications for diverse experimentation.

• Nichrome Wire Heater:

  • High-quality heater for precise and consistent heating.

• Mounting Bracket Assembly:

  • Sturdy support structure for secure and stable setup.

• Thermocouples:

  • Accurate temperature sensors for reliable data collection.

Applications:

• Ideal for academic laboratories studying heat transfer in lagged materials.
• Widely used in industrial research and development of insulated systems.
• A perfect tool for understanding thermal insulation performance in piping systems.

Why Choose SCIENTICO?

As a trusted manufacturer and exporter, SCIENTICO delivers lab equipment built for precision, durability, and performance. The Lagged Pipe Apparatus is designed to meet international quality standards and cater to the advanced needs of engineering and thermal research labs.

Frequently Asked Questions (FAQs):

Q1. What is the purpose of the lagged pipe in this apparatus?
A1. The lagged pipe allows for the study of heat transfer characteristics, including thermal resistance and conductivity, in insulated systems.

Q2. How many pipes are included in the setup?
A2. The setup includes three lagged pipes, each designed for different experimental scenarios.

Q3. Can experiments be conducted at varying heat inputs?
A3. Yes, the apparatus allows for adjusting the input levels, enabling detailed thermal analysis.

Model No: SCI-753

Manufacturer and Exporter: SCIENTICO

SCIENTICO is a leading manufacturer and exporter of Single Effect Evaporators, designed to provide a precise and reliable solution for the concentration of non-volatile solutes by removing volatile solvents. This apparatus is ideal for industrial and educational purposes, offering superior performance and durability.

Description

The Single Effect Evaporator is a sophisticated system that enables the concentration of dilute solutions by evaporating volatile solvents, typically water, while retaining the concentrated solution or thick liquor. The setup features stainless steel tubes surrounded by a stainless steel jacket for efficient heat transfer and a shell & tube condenser for effective vapor condensation.

The apparatus is widely used for the concentration of foamy liquids and in applications where thermal efficiency and precise control over material and heat balance are critical. The evaporator is equipped with an accumulator for collecting concentrated solutions and features a recycling mechanism for non-volatile solutes.

Features

• High-Quality Construction: Made of stainless steel for corrosion resistance and durability.
• Efficient Design: Long tube design for handling foamy liquids effectively.
• Advanced Heat Transfer: Optimized jacketed design for enhanced heat transfer.
• Integrated Condensation: Shell & tube type condenser for efficient solvent vapor condensation.
• User-Friendly Operation: Compact and modular design for easy setup and maintenance.

Specifications

1. Evaporator Construction:

   • Stainless steel long tube evaporator with jacketed shell.
   • Accumulator for concentrated solutions.

2. Condensation System:

   • Shell & tube type condenser for vapor condensation.
   • Steam trap for efficient condensate collection.

3. Instrumentation:

   • Digital temperature indicators for monitoring.
   • Pressure gauges for shell and tube monitoring.

4. Feed System:

   • Dilute solution fed to the tubes for precise concentration.

5. Utilities:

   • Steam generator (optional).
   • Condensate collection system.

Applications

• Educational Institutions: Practical experiments in material and heat balance.
• Industrial Use: Concentration of solutions in chemical, food, and pharmaceutical industries.
• Research & Development: Ideal for studying evaporator performance and process optimization.

Experiments

The Single Effect Evaporator enables users to:

1. Concentrate a solution and evaluate material and heat balances.
2. Determine the evaporator's economy and capacity.
3. Calculate the overall heat transfer coefficient at steady-state conditions.

Why Choose SCIENTICO?

SCIENTICO is committed to delivering state-of-the-art laboratory and industrial equipment tailored to meet your specific requirements. The Single Effect Evaporator ensures reliability, precision, and efficiency, making it an indispensable tool for educational and industrial purposes.

Contact us today to learn more about our customizable options and competitive pricing.

Model No: SCI-137

Manufacturer and Exporter: SCIENTICO

SCIENTICO offers the Thermal Conductivity of Metal Rod Apparatus, a precision-engineered setup designed to demonstrate the principles of heat conduction in metals. This apparatus provides an efficient and practical way to study thermal conductivity in a metal rod by measuring heat transfer along its length.

Description

The apparatus features a copper rod heated at one end with a band heater and cooled at the opposite end using a water-cooled heat sink. The insulated test section ensures accurate heat transfer measurements. Multiple thermocouples are mounted along the length of the rod to record temperature gradients.

The system includes a control panel equipped with essential instruments for precise monitoring and control. It facilitates easy operation while offering a robust structure for reliable performance. Heat conduction through the rod is determined by measuring the heat collected in the water-cooled heat sink.

Features

• Precision Testing: Designed to measure the thermal conductivity of a metal rod.
• Integrated Insulation: Ensures minimal heat loss for accurate results.
• Multi-Thermocouple Setup: 8 thermocouples strategically placed along the rod to measure temperature distribution.
• User-Friendly Controls: Includes a voltmeter, ammeter, and dimmerstat for easy operation.
• Durable Construction: High-quality materials and sturdy mounting ensure long operational life.
• Water-Cooled Heat Sink: Efficient heat removal for precise heat conduction studies.

Specifications

1. Metal Rod:

   • Diameter: 25 mm
   • Equipped with 8 thermocouples for temperature measurement.
   • One end fitted with a band heater and the other with a water-cooled heat sink.
   • Insulated test section to minimize heat loss.

2. Control Panel:

   • Voltmeter: 1 No.
   • Ammeter: 1 No.
   • Dimmerstat: 0-230V, 2A capacity.
   • Multichannel Digital Temperature Indicator for precise readings.

3. Accessories:

   • Measuring flask for water collection.
   • Stop clock for accurate timing.

Services Required

• Bench area of 1.5m x 1m at working height.
• 230V AC electric supply with proper earthing.
• Water supply at a flow rate of 2 liters per minute.

Applications

• Educational Labs: Ideal for engineering students to study thermal conductivity in metals.
• Research & Development: Useful for experimental studies on heat conduction mechanisms.

Why Choose SCIENTICO?

As a leading manufacturer and exporter of laboratory equipment, SCIENTICO is committed to delivering reliable and high-performance apparatus. The Thermal Conductivity of Metal Rod Apparatus is designed to meet international quality standards, ensuring precision and durability.

Contact us today for pricing and customization options. Elevate your experiments with SCIENTICO’s trusted solutions!

Thermal Conductivity of Liquids Apparatus

Model No: SCI-129
Manufacturer and Exporter: SCIENTICO

SCIENTICO is a renowned manufacturer, exporter, and supplier of the Thermal Conductivity of Liquids Apparatus, engineered for precision and reliability. This apparatus is specifically designed to measure the thermal conductivity of various liquids with accuracy and consistency. It is widely used in educational institutions, research laboratories, and industrial applications for studying the thermal properties of fluids.

Description

Our Thermal Conductivity of Liquids Apparatus is crafted using high-quality raw materials and advanced technology, adhering to international quality standards. The apparatus provides a straightforward and reliable method to evaluate the thermal conductivity of liquids, which is critical for understanding heat transfer in various fluids.

Each unit is rigorously tested under the supervision of skilled quality controllers to ensure flawless performance. Additionally, we offer customization options to meet the diverse needs of our clients.

Features

• Robust Construction: Built with sturdy materials for long-lasting durability.
• Precise Measurements: Provides highly accurate thermal conductivity values.
• User-Friendly Design: Easy to operate, making it ideal for students and professionals.
• Long Operational Life: Designed for extended performance without frequent maintenance.
• Excellent Performance: Delivers reliable and repeatable results.

Applications

• Educational Purposes: Ideal for use in engineering and science laboratories to teach heat transfer concepts.
• Research and Development: Suitable for studies involving fluid thermal properties in R&D labs.
• Industrial Analysis: Utilized in industries requiring detailed analysis of thermal conductivity in liquids.

Why Choose SCIENTICO?

At SCIENTICO, we are committed to delivering products that meet global quality standards. With state-of-the-art manufacturing facilities and a team of skilled engineers, we ensure every product offers:

• Superior performance.
• Exceptional durability.
• Tailored customization options at competitive market rates.

Contact us today to explore the benefits of our Thermal Conductivity of Liquids Apparatus and take advantage of our worldwide export services.

We offer premium-quality Thermal Conductivity of Insulating Powder apparatus to our esteemed clients, meticulously designed to determine the thermal conductivity of insulating materials. This equipment is ideal for educational and industrial applications, delivering accurate results while ensuring long-lasting performance.

Available in customizable specifications, the apparatus meets the diverse requirements of our customers. Each unit is thoroughly tested by our skilled professionals, ensuring reliable and precise performance. Backed by robust construction and energy efficiency, this equipment is a valuable addition to any laboratory.

FEATURES

• Energy Efficient: Operates with low power consumption, ensuring cost savings.
• Sturdy Construction: Designed for durability and longevity in laboratory environments.
• High Performance: Provides accurate and consistent thermal conductivity measurements.
• Customizable Specifications: Tailored to meet the specific needs of educational and research institutions.

APPLICATIONS

• Used in thermodynamics laboratories for analyzing and understanding heat transfer in insulating materials.
• Ideal for engineering colleges, research facilities, and industrial training centers.

WHY CHOOSE US?

• Trusted manufacturer and exporter of thermodynamics lab equipment.
• Competitive pricing with no compromise on quality.
• Fully tested and certified for optimal performance.

ORDER NOW!
Avail the Thermal Conductivity of Insulating Powder apparatus at competitive market prices. Contact us today for customized solutions and prompt delivery.

Features:

• Less power consumption
• Sturdy construction
• Optimum performance

Model No: SCI-762

Manufacturer and Exporter: SCIENTICO

With extensive industry expertise, SCIENTICO is a renowned manufacturer, exporter, and supplier of premium-quality Thermal Conductivity of Insulating Slab Apparatus. Designed for precision and durability, this apparatus is an essential tool for studying and evaluating the thermal conductivity properties of insulating materials under various conditions.

Description

The Thermal Conductivity of Insulating Slab Apparatus is used to determine the heat transfer rate and thermal conductivity of insulating materials. It enables students, researchers, and engineers to assess insulation performance and validate the principles of conduction heat transfer.

The apparatus features a high-grade insulating slab sandwiched between heated and cooled plates. It is equipped with advanced instrumentation to measure temperature gradients, heat input, and conductivity with accuracy.

Features

• Robust Construction: Built with premium materials to ensure long-lasting performance.
• High Precision: Accurate temperature and heat measurement for reliable results.
• User-Friendly Design: Compact setup with easy-to-operate controls and instrumentation.
• Customizable Options: Available in multiple configurations to suit diverse testing requirements.
• Comprehensive Testing: Capable of evaluating a wide range of insulating materials.

Specifications

1. Insulating Slab: Made of high-quality material with uniform thickness for accurate testing.
2. Heater Plate: Electric heater with adjustable power input for controlled heating.
3. Cooling Plate: Efficient cooling mechanism for consistent heat flow measurement.
4. Instruments Panel:
   • Digital temperature indicators for precise monitoring.
   • Voltmeter and ammeter for power measurements.
5. Thermocouples: Multiple thermocouples embedded at strategic points for temperature measurement.
6. Power Supply:
   • Input: 230V, 50Hz, AC supply.

Applications

• Educational Laboratories: Ideal for teaching heat transfer principles in engineering and physics courses.
• Research & Development: Used for studying thermal properties of new insulating materials.
• Industrial Testing: Evaluating insulation performance for HVAC, construction, and thermal equipment.

Why Choose SCIENTICO?

At SCIENTICO, we combine innovation and quality to deliver equipment that meets global standards. Our Thermal Conductivity of Insulating Slab Apparatus is engineered to provide accurate, repeatable results, making it an indispensable tool for academic and industrial applications.

Contact us today to explore custom options or request a quote for your Thermal Conductivity of Insulating Slab Apparatus needs.

SCIENTICO, a globally trusted manufacturer and exporter of laboratory equipment, presents the Computerized Thermal Conductivity of Liquid Apparatus. Designed for accurate and educational experimentation, this apparatus is ideal for understanding steady and transient heat conduction in various fluids.

Key Features:

• Comprehensive Heat Conduction Study:

  • Determine thermal resistance and thermal conductivities (k-values) of fluids like water, oil, air, or CO₂.
  • Analyze steady and transient heat conduction.

• Innovative Design:

  • Concentric annular gap prevents convection, ensuring precise conduction results.
  • Electrically heated inner cylinder and water-cooled outer cylinder for controlled experiments.

• Advanced Instrumentation:

  • Microprocessor-based system for reliable data acquisition and operation.
  • Educational software for enhanced learning with data visualization and analysis tools.

Applications:

1. Determine thermal conductivities of various fluids at different temperatures.
2. Study transient heat conduction using the block capacity model.
3. Analyze heat conduction differences between gases and liquids.
4. Ideal for academic institutions, research laboratories, and industrial R&D centers.

Technical Specifications:

• Experimental Setup:

  • Concentric annular gap with a height of 0.4mm and average diameter of 29.6mm.
  • Inner cylinder with mass 0.11kg and specific heat capacity of 890J/kg*K.
  • Heat transfer area: 0.007439m².

• Heater:

  • Heating power: 350W.
  • Temperature limitation: 95°C.

• Measurement Ranges:

  • Temperature: 2x (0–325°C).
  • Heating power: 0–450W.

• Dimensions and Weight:

  • Size: 800x600x500mm.
  • Weight: 30kg.

• Power Requirements:

  • 230V, 50Hz, 1 phase.
  • Compatible with 230V, 60Hz, or 120V, 60Hz systems.

Features of the Software:

• Educational Content:

  • Interactive explanations for steady and transient heat conduction.

• System Operation and Data Acquisition:

  • Monitor, control, and analyze real-time data via a PC using a USB connection.

• Comprehensive Analysis Tools:

  • Study thermal properties of different fluids under controlled experimental conditions.

Why Choose SCIENTICO?

• Proven expertise in manufacturing high-precision laboratory instruments.
• High-quality materials and robust design for long-lasting durability.
• Customizable solutions at competitive prices, ensuring value for money.

Frequently Asked Questions (FAQs):

Q1. Can this apparatus study both gases and liquids?
A1. Yes, it is designed for both gases and liquids, enabling thermal conductivity analysis across various mediums.

Q2. Is the software user-friendly?
A2. Absolutely! The software is intuitive, featuring educational modules and advanced data acquisition capabilities.

Q3. What makes this suitable for academic use?
A3. Its ability to study fundamental principles of heat conduction with high accuracy and detailed visualization makes it an excellent educational too

SCIENTICO, a leading manufacturer and exporter of laboratory equipment, offers the Thermal Conductivity of Metal Bar Apparatus for precise experimentation in heat transfer studies. This apparatus is ideal for educational institutions and research facilities to determine the thermal conductivity of metals through a practical and reliable method.

Product Highlights:

• Durable Construction: High-quality copper metal bar ensures accuracy and reliability in thermal conductivity experiments.
• User-Friendly Design: Equipped with thermocouples, cooling jackets, and control panels for seamless operation and precise measurement.
• Comprehensive Setup: Includes provisions for monitoring heat conduction, dissipation, and related parameters effectively.

Specifications:

1. Metal Bar:

   • Material: Copper.
   • Total Length: 510 mm.
   • Diameter: 25.4 mm.
   • Test Length: 292.5 mm.

2. Thermocouples:

   • Total: 10 thermocouples.
   • Positions 1 to 6: Mounted on the bar for heat conduction measurement.
   • Positions 7 & 8: In the insulation shell.
   • Positions 9 & 10: For cooling water inlet and outlet.

3. Heater:

   • Type: Band heater for uniform heating.

4. Cooling Jacket:

   • Diameter: 75 mm.

5. Instrumentation and Controls:

   • Dimmerstat: 1000 watts for precise control of heater input.
   • Voltmeter: 0–300 volts.
   • Ammeter: 0–5 amps.
   • Temperature Indicator: 0–300°C, for accurate temperature readings.

Service Requirements:

• Bench area for equipment mounting.
• 15-amp single-phase AC power supply with proper earthing.
• Continuous water supply at a constant head.

Applications:

• Determination of thermal conductivity of metals.
• Study of heat conduction along a solid bar.
• Analysis of heat dissipation through water cooling.
• Ideal for use in thermal engineering, heat transfer studies, and academic laboratories.

Why Choose SCIENTICO?

• Global Recognition: Renowned as a trusted manufacturer and exporter of high-quality laboratory equipment.
• Commitment to Quality: Ensures precision, durability, and user-friendly operation in all products.
• Affordable Pricing: Competitive rates without compromising on quality or performance.

FAQs:

Q1. Can this apparatus be used for different metals?
A1. The standard apparatus is equipped with a copper bar, but custom options may be available for other materials.

Q2. How many thermocouples are included?
A2. The setup includes 10 thermocouples for comprehensive heat transfer analysis.

Q3. Is the equipment easy to set up?
A3. Yes, it requires a bench area, power connection, and a constant water supply for operation.

Model No: SCI-813

The Computerized Thermal Conductivity of Powder apparatus by SCIENTICO is an advanced experimental unit designed to measure and analyze the thermal conductivity of insulating powders. This equipment is perfect for educational institutions, research laboratories, and industries involved in thermal insulation studies.

Product Overview:

The system comprises two thin-wall concentric copper spheres, with the inner sphere housing a mica-based nichrome heating coil. The insulating powder is packed between the spheres, creating a controlled environment for heat transfer studies. Data acquisition and monitoring are facilitated through integrated microprocessor-based instrumentation and user-friendly software.

Key Features:

• Accurate Thermal Analysis:

  • Enables determination of thermal conductivity (kk k) for various insulating powders at different temperatures.

• Advanced Data Acquisition:

  • Equipped with temperature sensors and educational software for real-time data recording and analysis.

• Comprehensive Experimentation:

  • Measure temperature profiles across inner and outer copper spheres using 10 embedded thermocouples.

• User-Friendly Operation

• Versatility:

  • Ideal for educational demonstrations, research, and industrial testing.

Specifications:

1. Construction:

   • Inner Copper Sphere Radius: 50mm
   • Outer Copper Sphere Radius: 100mm

2. Heating Unit:

   • Heater Type: Mica-based nichrome wire
   • Heating Power: 350W
   • Temperature Limitation: 95°C

3. Measuring Ranges:

   • Temperature: 0–325°C (2 sensors)
   • Heating Power: 0–450W

4. Insulating Powder:

   • Asbestos magnesia (commercially available powder).

5. Instrumentation:

   • 10 thermocouples: 4 on the inner sphere, 6 on the outer sphere.
   • Digital display and software integration for precise measurement.

6. Software Features:

   • System Operation: Monitor and control the experimental setup.
   • Educational Modules: Facilitate learning with interactive demonstrations.
   • Data Acquisition: Export data for further analysis via USB.

Service Requirements:

• Power Supply:

  • 230V, 50Hz, 1-phase AC.
  • 120V, 60Hz, 1-phase AC.

• Space Requirements:

  • Bench space to accommodate dimensions of 600x600x500mm.

Dimensions and Weight:

• Dimensions: 600x600x500mm (LxWxH).
• Weight: Approx. 25kg.

Applications:

• Thermal conductivity studies of various insulating powders.
• Academic research and training on heat transfer principles.
• Industrial testing for insulation material development.

FAQs:

Q1. Can this unit measure the thermal conductivity of any powder?
A1. Yes, it is compatible with commercially available insulating powders like asbestos magnesia.

Q2. Is the software user-friendly?
A2. Absolutely. The software is designed for easy operation, data acquisition, and educational purposes.

Q3. How many temperature sensors are integrated?
A3. There are 10 thermocouples—4 on the inner sphere and 6 on the outer sphere—for precise monitoring.