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Test Chamber

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LifeClave by LIFEX Dental UV Chamber with 12 Stainless Steel Trays, SVUTD Series

By LIFEX

₹6,719 - ₹6,719

The LifeClave by LIFEX Dental UV Chamber with 12 Stainless Steel Trays, SVUTD Series is an advanced sterilization solution designed to meet the rigorous demands of dental professionals. Equipped with 12 durable stainless steel trays, this chamber ensures efficient and reliable sterilization of dental instruments. The UV-C technology utilized in the LifeClave ensures the highest level of sanitation, eliminating harmful bacteria and viruses from your tools to maintain a sterile environment for every procedure.Built with precision and quality in mind, the LifeClave by LIFEX Dental UV Chamber is ideal for dental clinics seeking a user-friendly, high-performance sterilization system. Its compact design makes it easy to incorporate into any workspace while maintaining safety and efficacy. The SVUTD Series is engineered to deliver consistent, reliable results, ensuring your dental instruments are always safe and ready for use.

Type of Product : Dental UV Chamber

Application : Dental Clinics

Country of Origin : India

Coating Type : Powder Coating

No. of Trays : 12 Trays

Tray Material : Stainless Steel

Designed For : Sterilizing a Wide Range of Dental Instruments, Including Drills, Handpieces, and Small Equipment

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Labpro 151 560 L Small Plant Growth Chamber

By Labpro

₹2,47,799  

A Labpro 151 560 L Small Plant Growth Chamber is a controlled environment facility used to grow plants under precise environmental conditions. Plant growth chambers are commonly used in scientific research, agriculture, and horticulture to study plant growth and development and to produce high-quality plants and crops. Plant growth chambers are designed to control several environmental factors, including temperature, humidity, light, and air composition. They can be customized to simulate various growing conditions, including different photoperiods, light intensities, and temperatures, allowing researchers and growers to study plant growth and development under specific conditions. Plant growth chambers typically consist of an enclosed chamber or room with specialized lighting, heating, ventilation systems, and a nutrient delivery system. The lighting system is generally designed to provide the plants with the required spectrum and intensity of light. In contrast, the heating and ventilation systems help to maintain a stable temperature and humidity level. Plant growth chambers can be used to study a variety of plant-related topics, including: Photosynthesis and Respiration: Plant growth chambers can be used to study the effects of different light and temperature conditions on photosynthesis and respiration rates Plant Growth and Development: Plant growth chambers can be used to study the effects of different environmental factors on plant growth and development, including seed germination, vegetative growth, and flowering Plant Physiology: Plant growth chambers can be used to study the physiology of plants, including the effects of stress, disease, and pests on plant growth and development Crop Production: Plant growth chambers can be used to produce high-quality crops, including fruits, vegetables, and ornamental plants, under controlled environmental conditions Overall, plant growth chambers are a valuable tool for studying plant growth and development and producing high-quality plants and crops under precise environmental conditions. They are an essential component of research, agriculture, and horticulture industries.

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Labpro 151 280 L Small Plant Growth Chamber

By Labpro

₹2,00,599  

A Labpro 151 280 L Small Plant Growth Chamber is a controlled environment facility used to grow plants under precise environmental conditions. Plant growth chambers are commonly used in scientific research, agriculture, and horticulture to study plant growth and development and to produce high-quality plants and crops. Plant growth chambers are designed to control several environmental factors, including temperature, humidity, light, and air composition. They can be customized to simulate various growing conditions, including different photoperiods, light intensities, and temperatures, allowing researchers and growers to study plant growth and development under specific conditions. Plant growth chambers typically consist of an enclosed chamber or room with specialized lighting, heating, ventilation systems, and a nutrient delivery system. The lighting system is generally designed to provide the plants with the required spectrum and intensity of light. In contrast, the heating and ventilation systems help to maintain a stable temperature and humidity level. Plant growth chambers can be used to study a variety of plant-related topics, including: Photosynthesis and Respiration: Plant growth chambers can be used to study the effects of different light and temperature conditions on photosynthesis and respiration rates Plant Growth and Development: Plant growth chambers can be used to study the effects of different environmental factors on plant growth and development, including seed germination, vegetative growth, and flowering Plant Physiology: Plant growth chambers can be used to study the physiology of plants, including the effects of stress, disease, and pests on plant growth and development Crop Production: Plant growth chambers can be used to produce high-quality crops, including fruits, vegetables, and ornamental plants, under controlled environmental conditions Overall, plant growth chambers are a valuable tool for studying plant growth and development and producing high-quality plants and crops under precise environmental conditions. They are an essential component of research, agriculture, and horticulture industries.

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WKM Improved Neubauer Counting Chamber for Laboratories

By WKM

₹1,533 - ₹1,533

You save ₹917!

37.43% OFF

The WKM Improved Neubauer Counting Chamber for Laboratories represents a crucial tool for cell counting and analysis in biological and medical laboratories. Crafted with precision and expertise, this counting chamber offers enhanced features and accuracy for precise cell counting and analysis. Designed as an improvement over traditional Neubauer chambers, the WKM Improved Neubauer Counting Chamber features optimized grid patterns and markings, ensuring precise and reliable cell counts. This enhanced design allows for more accurate measurements and reduced margin of error in cell counting procedures. Constructed from high-quality materials, the counting chamber is durable and resistant to damage, ensuring long-term usability in laboratory settings. The transparent design of the chamber enables easy visualization of cells under a microscope, facilitating accurate counting and analysis. With its user-friendly design and improved accuracy, the WKM Improved Neubauer Counting Chamber is an indispensable tool for laboratories conducting cell-based research, medical diagnostics, and other biological analyses. It provides researchers and scientists with a reliable and efficient solution for cell counting and analysis, contributing to the advancement of scientific knowledge and medical research.

Country of Origin : India

Shape : Rectangular

Finishing : Raw Glass

Name of Manufacturer/Packer/Importer : Kamboj Traders

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Labpro 147 308 L Seed Germinator Single Chamber

By Labpro

₹1,29,799  

A Labpro 147 308 L Seed Germinator Single Chamber also known as a environmental chamber or climatic chamber, is an enclosed space designed to simulate and control specific environmental conditions for testing purposes. These chambers are commonly used in various industries, including manufacturing, electronics, automotive, aerospace, and research laboratories. Here's an overview of a typical test chamber: Construction and Design: Test chambers are typically made of durable materials such as stainless steel or other corrosion-resistant materials. They are designed to be airtight and insulated to maintain stable internal conditions. The chamber may have windows or ports for observation or the insertion of testing equipment. Temperature Control: Test chambers can control temperature to simulate a wide range of environmental conditions. They have heating and cooling systems, often with high-precision temperature controllers, to adjust and maintain the desired temperature range. Some chambers offer temperature cycling capabilities to simulate thermal stress or rapid temperature changes. Humidity Control: Many test chambers include humidity control systems to adjust and maintain specific humidity levels within the chamber. These systems may involve the use of water reservoirs, humidifiers, or dehumidifiers to generate or remove moisture as required for the testing conditions. Environmental Simulation: Test chambers can simulate various environmental factors, including temperature, humidity, pressure, vibration, light, and gases. Some chambers provide the capability to control multiple parameters simultaneously, allowing for more complex testing scenarios. Data Monitoring and Control: Test chambers often include built-in sensors and data acquisition systems to monitor and record environmental parameters such as temperature, humidity, and pressure. They may also have programmable controllers or software interfaces for precise control and automation of test conditions. Safety Features: Test chambers incorporate safety features such as over-temperature protection, emergency stop buttons, and alarms to ensure the safety of personnel and equipment during testing. Test chambers are used for a wide range of testing and research purposes. They enable manufacturers to evaluate the performance, reliability, and durability of products under controlled and repeatable conditions. Typical applications include temperature and humidity testing, accelerated aging, thermal cycling, shelf life studies, product development, and quality control. It's important to note that specific test chambers may have additional features or capabilities tailored to the requirements of the intended testing applications.

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HTLP PUF Insulated Plant Growth Environmental Chamber HTLP-027

By HTLP

₹2,71,399 - ₹5,51,562

The HTLP PUF Insulated Plant Growth Environmental Chamber, designated as HTLP-027, plays a pivotal role in scientific research, particularly in botany, agriculture, and plant biology. This chamber creates a controlled environment that mimics natural conditions, facilitating the growth, study, and experimentation of plants under precise parameters. Key features and functions of the HTLP-027 PUF Insulated Plant Growth Environmental Chamber include: PUF Insulation: The chamber is equipped with Polyurethane Foam (PUF) insulation, providing superior thermal insulation properties. PUF insulation helps maintain stable internal temperatures, prevents heat loss, and ensures consistent environmental conditions for plant growth. Environmental Control: The chamber allows for precise control over environmental factors such as temperature, humidity, light intensity, and photoperiod. These parameters can be adjusted to simulate various climates and growing conditions, enabling researchers to study plant responses to different environments. Temperature Regulation: Advanced temperature control systems enable users to set and maintain specific temperature ranges within the chamber. This feature is crucial for creating optimal growth conditions for different plant species and research purposes. Humidity Control: The chamber is equipped with humidity control systems that allow users to regulate and maintain desired humidity levels. This capability is essential for creating humid or arid conditions to study plant responses to moisture stress and humidity variations. Lighting Systems: Integrated lighting systems provide uniform illumination across the chamber, simulating natural daylight conditions or customized light spectra for specific research objectives. Adjustable light intensity and photoperiod settings allow researchers to control plant growth and development stages. Ventilation and Air Circulation: The chamber is designed with efficient ventilation and air circulation systems to ensure adequate air exchange and uniform distribution of gases within the chamber. This helps prevent the buildup of CO2 and ensures optimal conditions for photosynthesis and plant respiration. Space Optimization: The HTLP-027 Environmental Chamber is designed to maximize space utilization while accommodating a wide range of plant growth experiments. Adjustable shelves or racks provide flexibility in arranging plants of different sizes and growth requirements. Data Monitoring and Logging: Some models of the chamber may feature data monitoring and logging capabilities, allowing researchers to track environmental parameters over time. This data can be analyzed to understand plant responses to changing conditions and optimize experimental protocols. In summary, the HTLP PUF Insulated Plant Growth Environmental Chamber HTLP-027 provides researchers with a versatile and controlled environment for studying plant growth, development, and responses to environmental stimuli. Its advanced features, including PUF insulation, environmental control systems, and lighting options, make it an indispensable tool for plant science research and experimentation.

Type of Product : Plant Growth Environmental Chamber

Temperature Range : 5°C to 60°C

Humidity Range (Rh %) : 50% to 90% RH

Model No : HTLP-027

Voltage : 220-230 V

Temperature controller : PID Controller with SV & PV Values

Temperature Accuracy : ±1°C

Usage For : To create artificial environment for plants

Inner Chamber : Stainless Steel 304

Outer Chamber : Powder Coated Mild Steel/GI Metal Sheet

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Labpro 148 Seed Germinator Dual Chamber with Heating and Cooling In Both Chamber

By Labpro

₹2,59,599  

A Labpro 148 Seed Germinator Dual Chamber with Heating and Cooling In Both Chamber also known as a environmental chamber or climatic chamber, is an enclosed space designed to simulate and control specific environmental conditions for testing purposes. These chambers are commonly used in various industries, including manufacturing, electronics, automotive, aerospace, and research laboratories. Here's an overview of a typical test chamber: Construction and Design: Test chambers are typically made of durable materials such as stainless steel or other corrosion-resistant materials. They are designed to be airtight and insulated to maintain stable internal conditions. The chamber may have windows or ports for observation or the insertion of testing equipment. Temperature Control: Test chambers can control temperature to simulate a wide range of environmental conditions. They have heating and cooling systems, often with high-precision temperature controllers, to adjust and maintain the desired temperature range. Some chambers offer temperature cycling capabilities to simulate thermal stress or rapid temperature changes. Humidity Control: Many test chambers include humidity control systems to adjust and maintain specific humidity levels within the chamber. These systems may involve the use of water reservoirs, humidifiers, or dehumidifiers to generate or remove moisture as required for the testing conditions. Environmental Simulation: Test chambers can simulate various environmental factors, including temperature, humidity, pressure, vibration, light, and gases. Some chambers provide the capability to control multiple parameters simultaneously, allowing for more complex testing scenarios. Data Monitoring and Control: Test chambers often include built-in sensors and data acquisition systems to monitor and record environmental parameters such as temperature, humidity, and pressure. They may also have programmable controllers or software interfaces for precise control and automation of test conditions. Safety Features: Test chambers incorporate safety features such as over-temperature protection, emergency stop buttons, and alarms to ensure the safety of personnel and equipment during testing. Test chambers are used for a wide range of testing and research purposes. They enable manufacturers to evaluate the performance, reliability, and durability of products under controlled and repeatable conditions. Typical applications include temperature and humidity testing, accelerated aging, thermal cycling, shelf life studies, product development, and quality control. It's important to note that specific test chambers may have additional features or capabilities tailored to the requirements of the intended testing applications.

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LABIX Plant Growth Chamber, LBX-136 A

By LABIX

₹2,47,799   ₹3,31,200

You save ₹83,401!

25.18% OFF

The LABIX Plant Growth Chamber LBX-136 A is a state-of-the-art solution designed for precise plant research, cultivation, and experimentation. Engineered to create and maintain optimal environmental conditions, it controls temperature, humidity, lighting, and CO₂ levels to support healthy plant development in laboratories and research facilities. Constructed with a polished grade 304 stainless steel inner chamber and a mild steel exterior coated with epoxy powder, the chamber features double-wall fabrication with high-grade PUF insulation to reduce thermal loss. The full-length transparent acrylic door provides clear visibility inside. Equipped with perforated adjustable shelves, an independent steam generator with low water safety cutoff, and a microprocessor-based digital temperature-humidity controller, it offers temperature control from 5°C to 60°C (±1°C) and humidity control up to 95% RH (±2%). An air circulation system ensures uniform conditions throughout. Operating on 230±10V/50Hz power supply, the LABIX Plant Growth Chamber LBX-136 A is a reliable choice in the Plant Growth Chambers category from the trusted LABIX brand.

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LABIX Humidity / Environmental Chamber, LBX-137 A

By LABIX

₹1,76,999   ₹2,23,500

You save ₹46,501!

20.81% OFF

The LABIX Humidity / Environmental Chamber LBX-137 A is a precision-engineered solution designed for accurate temperature and humidity control across various industries. Perfect for product testing, pharmaceutical storage, material research, and scientific experiments, this chamber delivers stable and consistent environmental conditions to meet rigorous testing requirements. Crafted with a polished grade 304 stainless steel inner chamber and a mild steel exterior finished with durable epoxy powder coating, the chamber features double-wall fabrication with high-grade PUF insulation to minimize thermal loss. It includes a hermetically sealed compressor using CFC-free refrigerant, and dual stainless steel water tanks equipped with a steam generator and low water safety device. The chamber controls temperature from 10°C to 60°C (±1°C accuracy) and humidity from 55% to 90% (±3% accuracy) via a microprocessor controller for precise management. Operating on a 230±10V/50Hz power supply, the LABIX Humidity / Environmental Chamber LBX-137 A is a trusted choice in the Environmental Chambers category by the renowned LABIX brand.

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LABIX Seed Germinator Single Chamber 555x 605x910 mm, LBX-135 A

By LABIX

₹2,12,399   ₹2,82,750

You save ₹70,351!

24.88% OFF

The LABIX Seed Germinator Single Chamber LBX-135 A is a high-precision growth chamber crafted for optimal seed germination and plant growth studies. Designed with standard double-wall fabrication, it features an inner chamber made from polished Grade 304 stainless steel and an epoxy powder-coated mild steel exterior. Its full-length transparent acrylic door allows easy viewing without disturbing internal conditions. High-grade PUF insulation minimizes thermal loss, ensuring consistent internal temperature. A fluorescent tube provides internal illumination with a day-night cyclic timer, simulating natural light conditions. Equipped with a microprocessor-based digital temperature-humidity controller, the LABIX Seed Germinator ensures precise climate regulation, maintaining temperatures from 5°C to 60°C (±1°C accuracy) and humidity up to 95% RH (±0.5%). A dedicated steam generator includes a low water cutoff safety device, and the integrated air circulation system ensures uniform temperature and humidity. Reliable and efficient, this unit operates on a 230±10V/50Hz supply and is ideal for agricultural research, botanical studies, and quality control labs.

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Generic Stability Chamber Temperature Controller

By GENERIC

₹14,159  

The stability chamber can be used to control the temperature of a variety of chemical and biological processes, such as fermentation or curing. Although the temperature can be controlled manually, a more accurate method involves the use of a temperature controller. A temperature controller monitors the temperature in an area and adjusts it accordingly. These controllers are widely used in industrial and scientific applications; however, they can be expensive and difficult to build. This guide will show you how to build a generic temperature controller for your own use by modifying off-the-shelf products. This device is a controller for regulating temperature in a chamber. It can be used to maintain a certain temperature by outputting a signal to the heater or to regulate temperature by outputting a signal to the cooler. It can also be used without any heating or cooling mechanism by using as a thermostat, which has a built-in heater and cooler.One of the most important features of a temperature controller is its ability to maintain a stable temperature. This definition of stability is non-trivial; it is impossible to construct a device that always maintains a precise temperature. Rather, stability must be defined relative to some ambient condition. In addition to providing accurate relative temperatures, another important feature of any controller is its ability to provide reliable control. Reliability can be measured in many ways, but one metric that is especially relevant in biotechnology applications is the probability of successfully controlling temperatures for an extended period of time.

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Generic Humidity Chamber

By GENERIC

₹3,65,799  

A humidity chamber is used to control the humidity of a sample in order to test the result of the experiment. The test chamber consists of an enclosed area with a set temperature and humidity rate, it allows the experiment to take place without external interference. The test chamber is also equipped with an alarm system for safety purposes. After setting up the experiment and making sure that everything is working properly, we can leave the test chamber and have it run on its own.The humidity chamber has been used in many experiments in various fields, including water absorption, wood decay, aging of different foods, etc. It is one of the most important instruments used in weather stations to make accurate forecasts because it ensures that the results of experiments are free from external influences such as temperature and humidity changes.The sample holder must withstand any pressure exerted by the atmosphere within or surrounding it. It also requires a way to allow two pieces to be connected with each other, preferably without compromising their ability to withstand pressure. The inside walls of the case must be smooth to allow air to flow through them so that there will not be any dead areas where air cannot flow through. These walls must also be able to withstand pressure so that they do not collapse

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Generic Humidity Test Chamber

By GENERIC

₹3,65,799  

A humidity test chamber is used to control the humidity of a sample in order to test the result of the experiment. The test chamber consists of an enclosed area with a set temperature and humidity rate, it allows the experiment to take place without external interference. The test chamber is also equipped with an alarm system for safety purposes. After setting up the experiment and making sure that everything is working properly, we can leave the test chamber and have it run on its own.The humidity test chamber has been used in many experiments in various fields, including water absorption, wood decay, aging of different foods, etc. It is one of the most important instruments used in weather stations to make accurate forecasts because it ensures that the results of experiments are free from external influences such as temperature and humidity changes.The sample holder must withstand any pressure exerted by the atmosphere within or surrounding it. It also requires a way to allow two pieces to be connected with each other, preferably without compromising their ability to withstand pressure. The inside walls of the case must be smooth to allow air to flow through them so that there will not be any dead areas where air cannot flow through. These walls must also be able to withstand pressure so that they do not collapse

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HTLP Double Walled Seed Germinator Single Chamber HTLP-026

By HTLP

₹2,00,599 - ₹4,91,260

The HTLP Double Walled Seed Germinator Single Chamber, denoted as HTLP-026, serves as a crucial apparatus in agricultural research, botany, and plant biology laboratories, providing controlled conditions for the germination and growth of seeds. These germinators create a conducive environment for seeds to sprout and develop into seedlings under controlled temperature and humidity conditions. Key features and functions of the HTLP-026 Double Walled Seed Germinator Single Chamber include: Double-Walled Construction: The germinator is constructed with double walls, creating an insulating layer between the inner and outer chambers. This design helps maintain stable internal temperatures and prevents heat loss, ensuring consistent conditions for seed germination. Single Chamber Design: The germinator features a single chamber for seed germination, providing a compact and space-efficient solution for laboratories with limited space. This design simplifies operation and maintenance while maximizing the available workspace. Temperature Control: Equipped with temperature control systems, the germinator allows users to regulate and maintain the internal temperature within a specified range. This ensures that seeds are subjected to optimal temperatures for germination, promoting uniform and healthy growth. Humidity Control: Some germinators may also feature humidity control systems, allowing users to adjust and maintain the humidity levels within the chamber. Proper humidity levels are essential for seed germination, ensuring adequate moisture for seedling development. Uniform Air Circulation: The germinator is designed to provide uniform air circulation throughout the chamber, ensuring consistent temperature and humidity distribution. This promotes even germination and growth of seeds, preventing uneven development and ensuring the quality of seedlings. Adjustable Shelves: The interior of the germinator typically features adjustable shelves or trays to accommodate seeds of different sizes and quantities. This versatility allows users to customize the layout of the chamber to suit their specific research needs. User-Friendly Interface: The HTLP-026 Seed Germinator is equipped with an intuitive control panel or interface, allowing users to set desired temperature and humidity parameters, monitor conditions in real-time, and make adjustments as needed. Safety Features: The germinator may include safety features such as alarms for abnormal conditions, automatic shutdown mechanisms, and temperature/humidity deviation alerts to ensure the safety of stored seeds and compliance with research protocols. In summary, the HTLP Double Walled Seed Germinator Single Chamber HTLP-026 provides a controlled environment for seed germination and growth, supporting research and experimentation in agriculture, botany, and plant biology. Its compact design, temperature/humidity control systems, and user-friendly interface make it an indispensable tool for studying seed development and plant growth in laboratory settings.

Type of Product : Seed Germinator Single Chamber

Temperature Range : 5°C to 60°C

Humidity Range (Rh %) : 50% to 90% RH

Model No : HTLP-026

Voltage : 220-230 V

Temperature controller : Digital PID Controller

Temperature Accuracy : ±1°C

Usage For : For germination of different types of seeds in laboratories

Inner Chamber : Stainless Steel 304

Wall Type : Double Wall

Outer Chamber : Powder Coated Mild Steel/GI Metal Sheet

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HTLP Double Walled Seed Germinator Double Chamber HTLP-027

By HTLP

₹2,71,399 - ₹3,53,999

The HTLP Double Walled Seed Germinator Double Chamber, identified as HTLP-027, serves as an essential apparatus in agricultural research, botany, and plant biology laboratories, providing controlled conditions for the germination and growth of seeds. These germinators create a conducive environment for seeds to sprout and develop into seedlings under controlled temperature and humidity conditions. Key features and functions of the HTLP-027 Double Walled Seed Germinator Double Chamber include: Double-Walled Construction: Similar to the single chamber version, the germinator is constructed with double walls, providing insulation between the inner and outer chambers. This design helps maintain stable internal temperatures and prevents heat loss, ensuring consistent conditions for seed germination. Dual Chamber Design: Unlike the single chamber version, the HTLP-027 features two separate chambers for seed germination. This allows users to conduct simultaneous experiments or germinate different types of seeds under varying conditions within the same unit. Temperature Control: The germinator is equipped with temperature control systems in each chamber, allowing users to regulate and maintain the internal temperature within a specified range. This ensures that seeds are subjected to optimal temperatures for germination, promoting uniform and healthy growth. Humidity Control: Some germinators may also feature humidity control systems in each chamber, enabling users to adjust and maintain the humidity levels independently. Proper humidity levels are essential for seed germination, ensuring adequate moisture for seedling development. Uniform Air Circulation: Both chambers are designed to provide uniform air circulation, ensuring consistent temperature and humidity distribution throughout. This promotes even germination and growth of seeds, preventing uneven development and ensuring the quality of seedlings in both chambers. Adjustable Shelves: Similar to the single chamber version, each chamber of the germinator typically features adjustable shelves or trays to accommodate seeds of different sizes and quantities. This versatility allows users to customize the layout of each chamber to suit their specific research needs. User-Friendly Interface: The HTLP-027 Seed Germinator is equipped with an intuitive control panel or interface for each chamber, allowing users to set desired temperature and humidity parameters, monitor conditions in real-time, and make adjustments as needed independently for each chamber. Safety Features: Similar to the single chamber version, the germinator may include safety features such as alarms for abnormal conditions, automatic shutdown mechanisms, and temperature/humidity deviation alerts to ensure the safety of stored seeds and compliance with research protocols. In summary, the HTLP Double Walled Seed Germinator Double Chamber HTLP-027 provides a versatile and controlled environment for seed germination and growth, supporting research and experimentation in agriculture, botany, and plant biology. Its dual chamber design, temperature/humidity control systems, and user-friendly interface make it an indispensable tool for studying seed development and plant growth in laboratory settings.

Type of Product : Seed Germinator Double Chamber

Temperature Range : 5°C to 60°C

Humidity Range (Rh %) : 50% to 90% RH

Model No : HTLP-027

Voltage : 220-230 V

Temperature controller : Digital PID Controller

Temperature Accuracy : ±1°C

Usage For : For germination of different types of seeds in laboratories

Inner Chamber : Stainless Steel 304

Outer Chamber : Powder Coated Mild Steel/GI Metal Sheet

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Labpro 151 1282 L Small Plant Growth Chamber

By Labpro

₹8,49,352  

A Labpro 151 1282 L Small Plant Growth Chamber is a controlled environment facility used to grow plants under precise environmental conditions. Plant growth chambers are commonly used in scientific research, agriculture, and horticulture to study plant growth and development and to produce high-quality plants and crops. Plant growth chambers are designed to control several environmental factors, including temperature, humidity, light, and air composition. They can be customized to simulate various growing conditions, including different photoperiods, light intensities, and temperatures, allowing researchers and growers to study plant growth and development under specific conditions. Plant growth chambers typically consist of an enclosed chamber or room with specialized lighting, heating, ventilation systems, and a nutrient delivery system. The lighting system is generally designed to provide the plants with the required spectrum and intensity of light. In contrast, the heating and ventilation systems help to maintain a stable temperature and humidity level. Plant growth chambers can be used to study a variety of plant-related topics, including: Photosynthesis and Respiration: Plant growth chambers can be used to study the effects of different light and temperature conditions on photosynthesis and respiration rates Plant Growth and Development: Plant growth chambers can be used to study the effects of different environmental factors on plant growth and development, including seed germination, vegetative growth, and flowering Plant Physiology: Plant growth chambers can be used to study the physiology of plants, including the effects of stress, disease, and pests on plant growth and development Crop Production: Plant growth chambers can be used to produce high-quality crops, including fruits, vegetables, and ornamental plants, under controlled environmental conditions Overall, plant growth chambers are a valuable tool for studying plant growth and development and producing high-quality plants and crops under precise environmental conditions. They are an essential component of research, agriculture, and horticulture industries.

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Labpro 151 840 L Small Plant Growth Chamber

By Labpro

₹4,01,199  

A Labpro 151 840 L Small Plant Growth Chamber is a controlled environment facility used to grow plants under precise environmental conditions. Plant growth chambers are commonly used in scientific research, agriculture, and horticulture to study plant growth and development and to produce high-quality plants and crops. Plant growth chambers are designed to control several environmental factors, including temperature, humidity, light, and air composition. They can be customized to simulate various growing conditions, including different photoperiods, light intensities, and temperatures, allowing researchers and growers to study plant growth and development under specific conditions. Plant growth chambers typically consist of an enclosed chamber or room with specialized lighting, heating, ventilation systems, and a nutrient delivery system. The lighting system is generally designed to provide the plants with the required spectrum and intensity of light. In contrast, the heating and ventilation systems help to maintain a stable temperature and humidity level. Plant growth chambers can be used to study a variety of plant-related topics, including: Photosynthesis and Respiration: Plant growth chambers can be used to study the effects of different light and temperature conditions on photosynthesis and respiration rates Plant Growth and Development: Plant growth chambers can be used to study the effects of different environmental factors on plant growth and development, including seed germination, vegetative growth, and flowering Plant Physiology: Plant growth chambers can be used to study the physiology of plants, including the effects of stress, disease, and pests on plant growth and development Crop Production: Plant growth chambers can be used to produce high-quality crops, including fruits, vegetables, and ornamental plants, under controlled environmental conditions Overall, plant growth chambers are a valuable tool for studying plant growth and development and producing high-quality plants and crops under precise environmental conditions. They are an essential component of research, agriculture, and horticulture industries.

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NSAW Environmental Chamber NSAW-1200

By NSAW

₹2,00,599 - ₹2,35,999

You save ₹63,167!

21.11% OFF

The NSAW Environmental Chamber NSAW-1200 is likely a controlled environment chamber designed for various environmental testing purposes. These chambers are used in industries such as electronics, automotive, aerospace, and pharmaceuticals to simulate specific environmental conditions such as temperature, humidity, light, and pressure. The NSAW-1200 chamber would typically feature precise temperature and humidity controls, as well as the ability to regulate other environmental factors like airflow and lighting. These chambers are used to test the durability, reliability, and performance of products under different environmental conditions before they are released to the market.

Type of Product : Environmental Chamber

Temperature Range : 50 DegC to 60 DegC

Accuracy : + 1°C

Voltage : 220-230 V AC

Coating : Epoxy Powder Coated

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Outer Material : Mild Steel Sheet

Inner Material : Stainless Steel

Item Code : NSAW-1200

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Sankalp Neubauer Chamber for Laboratory Usage, HSNEUBARCHMBR

By Sankalp

₹2,359   ₹2,700

You save ₹341!

12.63% OFF

Sankalp Neubauer Chamber for Laboratory Usage, HSNEUBARCHMBR is a specialized glass counting chamber used in laboratories for accurate cell counting, particularly in biological and biomedical fields. It is an essential tool for determining the concentration of cells or microorganisms in a liquid sample, allowing scientists to calculate cell density, viability, and other important parameters.
Key features and functions of the Neubauer chamber:
Construction: The Neubauer chamber is a square-shaped glass slide with a shallow rectangular depression in the center. This depression is marked with a grid pattern, which is etched or engraved on the glass surface.
Grid Pattern: The grid pattern on the Neubauer chamber consists of lines and squares that divide the central area into smaller squares or counting areas. These grids are essential for accurate cell counting.
Counting Area: The counting area is a precisely measured section of the chamber where cells or particles can be counted. The size and volume of this area are known, allowing for accurate cell concentration calculations.
Volume Chambers: A Neubauer chamber typically comes in two versions, one for counting smaller volumes of liquid and another for larger volumes. The smaller chamber is called the "depth of 0.1 mm," while the larger chamber is called the "depth of 0.2 mm." These differences in depth affect the volume of liquid sampled and the area to be counted.
Using a Neubauer chamber involves several steps:
Sample Preparation: A small sample of the liquid containing the cells or microorganisms is loaded into the chamber, typically using a pipette or micropipette.
Microscope Observation: The Neubauer chamber is placed under a microscope with the grid pattern facing up. Under the microscope, the cells in the counting area become visible.
Cell Counting: The cells or particles in the grid squares are manually counted, and the total count is recorded. Typically, only the cells touching the top and left boundaries of each square are counted to avoid duplication.
Calculation: By knowing the volume of liquid in the counting chamber and the number of cells counted, the cell concentration is calculated.
Neubauer chambers are invaluable tools for a wide range of applications, including cell culture, microbiology, and medical diagnostics. They provide a cost-effective and straightforward method for determining cell density and viability, allowing researchers and clinicians to monitor and control cell growth and population dynamics in various experiments and clinical tests.

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NSAW Aerosol Disinfector Humidifier NSAW-1212

By NSAW

₹18,879 - ₹20,059

You save ₹4,421!

18.06% OFF

The NSAW Aerosol Disinfector Humidifier NSAW-1212 is a device designed for disinfecting and humidifying air. It likely utilizes aerosol technology to disperse disinfectant agents into the air, helping to eliminate pathogens and maintain air quality. Additionally, it functions as a humidifier, adding moisture to the air to prevent dryness, which can have various health benefits. Such devices are often used in healthcare facilities, laboratories, clean rooms, and other environments where maintaining air quality is crucial.

Type of Product : Aerosol Disinfector Humidifier

Material : Stainless Steel

Country of Origin : India

Voltage : 220-230 V AC

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Item Code : NSAW-1212

Speed : 2800 rpm

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NSAW Plant Growth Chamber NSAW-1205

By NSAW

₹2,71,399 - ₹7,67,000

You save ₹70,447!

19.92% OFF

The NSAW Plant Growth Chamber NSAW-1205 is a specialized facility tailored for cultivating plants under controlled conditions. It's a vital tool in botanical research, agriculture, and plant sciences, offering precise regulation of temperature, humidity, lighting, and ventilation. With features like adjustable shelving and monitoring systems, it enables researchers to create optimal environments for plant growth, ensuring consistent results and facilitating studies on plant development, physiology, and responses to environmental stimuli.

Type of Product : Plant Growth Chamber

Coating : Epoxy Powder Coated

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Outer Material : Mild Steel Sheet

Inner Material : Stainless Steel

Item Code : NSAW-1205

Temperature Control : 15°C to 50°C

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Supertek Heavy Gauge Steel UV Sanitization Chamber with Enamel Finish, CH12040

By Supertek

₹60,179  

The Supertek Heavy Gauge Steel UV Sanitization Chamber, represented by model CH12040, stands as a robust and reliable solution for sterilization and decontamination in various settings. Constructed with heavy gauge steel and finished with enamel coating, this sanitization chamber combines durability with effectiveness to ensure thorough disinfection of laboratory equipment, tools, and other items.
The use of heavy gauge steel in the construction of the CH12040 UV sanitization chamber provides exceptional strength and durability, making it capable of withstanding frequent use and harsh operating conditions. This ensures longevity and reliability, making the chamber a valuable investment for laboratories, medical facilities, and industrial settings where sanitation is paramount.
The enamel finish applied to the CH12040 UV sanitization chamber not only enhances its aesthetic appeal but also provides additional protection against corrosion, rust, and wear. This protective coating prolongs the lifespan of the chamber and maintains its hygienic appearance, ensuring that it remains an effective and visually appealing solution for sterilization needs.
Equipped with UV-C lamps, the CH12040 sanitization chamber utilizes ultraviolet radiation at a wavelength of 254 nanometers (nm) to effectively destroy the DNA and RNA of microorganisms, including bacteria, viruses, and fungi. This germicidal UV light penetrates the cell walls of microorganisms, rendering them unable to replicate or cause infection, thus ensuring thorough sterilization of items placed inside the chamber.
The CH12040 UV sanitization chamber offers versatility in its applications, accommodating a wide range of items for sterilization, including laboratory glassware, pipettes, surgical instruments, personal protective equipment (PPE), and electronic devices. This flexibility makes it an indispensable tool for maintaining cleanliness and preventing the spread of infections in various environments.
Safety is a priority in the design of the CH12040 UV sanitization chamber, with features such as interlocks and safety switches to prevent accidental exposure to UV radiation during operation. These safety measures ensure the protection of users while the chamber is in use, allowing for safe and efficient sterilization procedures.
In summary, the Supertek Heavy Gauge Steel UV Sanitization Chamber, model CH12040, offers a durable, effective, and versatile solution for sterilization and decontamination needs. With its heavy gauge steel construction, enamel finish, germicidal UV-C lamps, and emphasis on safety, this sanitization chamber provides peace of mind and reliability in maintaining a clean and hygienic environment in laboratories, medical facilities, and industrial settings.

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NSAW Inoculation Chamber NSAW-1315

By NSAW

₹21,239 - ₹23,599

You save ₹5,981!

20.22% OFF

The NSAW Inoculation Chamber NSAW-1315 is likely a specialized chamber designed for inoculation procedures in microbiological or cell culture applications. Inoculation chambers provide a controlled environment for transferring microorganisms or cells onto growth media or substrates while minimizing the risk of contamination.

Type of Product : Inoculation Chamber

Material : Plyboard

Country of Origin : India

Voltage : 220-230 V AC

Application Area : Scientific Labs, Research Labs, Bio Labs

Item Code : NSAW-1315

Included Components : 1 Fluorescent Tube and 1 UV Germicidal Tube

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NSAW Seed Germinator NSAW-190

By NSAW

₹1,29,799 - ₹1,65,199

You save ₹33,313!

19.05% OFF

The NSAW Seed Germinator NSAW-190 serves as a crucial tool for agricultural research and seed testing laboratories by providing controlled conditions for optimal seed germination. With precise temperature and humidity regulation, it creates an environment conducive to the initial stages of plant growth. Equipped with monitoring systems, adjustable shelving, and ventilation, it ensures consistent and reliable germination rates across different seed varieties. This specialized apparatus plays a vital role in seed viability testing, plant breeding programs, and ensuring the quality of agricultural seeds, contributing to improved crop productivity and agricultural sustainability.

Type of Product : Seed Germinator

Country of Origin : India

Voltage : 220-230 V AC

Coating : Epoxy Powder Coated

Application Area : Bio Labs, Research Labs, Scientific Labs

Outer Material : Mild Steel Sheet

Inner Material : Stainless Steel

Item Code : NSAW-190

Grade : SS304

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NSAW Humidity and Temperature Control Cabinet NSAW-1195

By NSAW

₹1,08,559 - ₹1,65,199

You save ₹29,076!

21.13% OFF

The NSAW Humidity and Temperature Control Cabinet NSAW-1195 is likely a specialized cabinet designed to control both humidity and temperature within a contained space. These cabinets are commonly used in various industries such as electronics, optics, and pharmaceuticals, where precise environmental conditions are crucial for preserving the integrity and functionality of sensitive materials or products.

Type of Product : Humidity and Temperature Control Cabinet

Temperature Range : 50 DegC to 60 DegC

Voltage : 220-230 V AC

Coating : Epoxy Powder Coated

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Outer Material : Mild Steel Sheet

Inner Material : Stainless Steel

Item Code : NSAW-1195

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NSAW De Humidifier, NSAW-1210

By NSAW

₹1,00,299 - ₹1,12,099

You save ₹30,073!

23.07% OFF

The NSAW-1210 is a model of dehumidifier produced by NSAW. Here are some general features and specifications you might expect from a dehumidifier of this type:
Dehumidification Capacity: The amount of moisture the unit can remove from the air per day. This is typically measured in pints or liters per day.
Coverage Area: The size of the area the dehumidifier is designed to cover, often listed in square feet or square meters.
Water Tank Capacity: The size of the tank that collects the extracted moisture. Larger tanks require less frequent emptying.
Automatic Shutoff: A feature that turns off the unit when the water tank is full to prevent overflow.
Humidity Control: Allows you to set the desired humidity level, and the unit will automatically maintain it.
Continuous Drain Option: A feature that lets you attach a hose to the unit to continuously drain water, eliminating the need to empty the tank manually.

Type of Product : De Humidifier

Material : Mild Steel Sheet

Voltage : 220-230 V AC

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Item Code : NSAW-1210

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NSAW Digital & De Humidity Controller NSAW-1210

By NSAW

₹1,23,899 - ₹1,41,599

You save ₹16,795!

11.94% OFF

The NSAW Digital Humidity Controller NSAW-1210 is a device used to monitor and regulate humidity levels in a specific environment. It typically features a digital display that shows the current humidity level, as well as controls for setting the desired humidity level. Once the desired level is set, the controller will activate or deactivate a connected humidifier or dehumidifier to maintain the desired humidity level. This type of device is commonly used in environments where precise humidity control is important, such as in greenhouses, laboratories, storage facilities, or manufacturing plants. By maintaining optimal humidity levels, the NSAW-1210 can help prevent issues like mold growth, product degradation, or equipment malfunction caused by excessively high or low humidity.

Type of Product : Digital Humidity Controller

Material : Mild Steel Sheet

Country of Origin : India

Voltage : 220-230 V AC

Application Area : Research Labs, Bio-Tech Labs, Scientific Labs

Item Code : NSAW-1210

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U-Tech Environmental Cum Humidity Test Chamber for Laboratories SSI-125

By U-Tech

₹9,01,096  

U-Tech Environmental Cum Humidity Test Chamber for Laboratories SSI-125 is a specialized piece of equipment used for testing the effects of temperature and humidity on various materials, components, and products. It is designed to simulate real-world environmental conditions to assess the performance, durability, and reliability of a wide range of items.
The chamber consists of an enclosed space with controlled temperature and humidity levels. It typically comprises an insulated chamber, heating and cooling systems, humidity generation and control mechanisms, sensors, and a control system. The chamber's size can vary depending on the objects being tested, ranging from small chambers for electronic components to large walk-in chambers for testing automobiles or aircraft parts.
The temperature control system utilizes heating and cooling elements to achieve the desired temperature range within the chamber. The humidity control system generates moisture and maintains a specific humidity level, allowing the simulation of different environmental conditions such as tropical, desert, or temperate climates.
Environmental cum humidity test chambers are used in various industries such as automotive, aerospace, electronics, pharmaceuticals, and materials science. They play a crucial role in product development, quality control, and research and development activities.
By subjecting materials and products to controlled temperature and humidity variations, manufacturers can assess their performance under different conditions, identify weaknesses or potential failures, and make necessary improvements. These chambers are particularly important for assessing the effects of humidity on electrical components, corrosion resistance of metals, performance of coatings and paints, and the overall durability of products.
In conclusion, an environmental cum humidity test chamber is an essential tool for evaluating the effects of temperature and humidity on various materials and products. It allows manufacturers to replicate real-world conditions and conduct reliable tests to ensure the quality, reliability, and durability of their products. These chambers contribute to the development of robust and resilient materials and aid in the advancement of industries by enabling thorough testing and analysis.

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U-Tech Innoculation Chamber for Laboratories SSI-206

By U-Tech

₹51,919 - ₹70,799

The U-Tech Inoculation Chamber for Laboratories SSI-206 represents a vital tool in microbiology and cell culture research, providing a controlled environment for the sterile transfer of microorganisms and cells. Engineered with precision and equipped with advanced features, the SSI-206 ensures aseptic technique and minimizes the risk of contamination during inoculation procedures. At its core, the SSI-206 features a compact and ergonomic design, optimized for ease of use and space efficiency within the laboratory. Its sleek construction allows for seamless integration into existing laboratory workflows, making it ideal for a wide range of microbiological applications. The SSI-206 is equipped with a HEPA (High-Efficiency Particulate Air) filtration system, which provides a sterile environment by removing airborne contaminants such as dust, bacteria, and viruses. This ensures that the chamber remains free from external pollutants, safeguarding the integrity of samples and cultures during inoculation procedures. Advanced safety features are integrated into the SSI-206 to protect both laboratory personnel and samples. A transparent viewing window allows for visual monitoring of procedures without compromising the sterility of the chamber. Additionally, airtight seals and secure locking mechanisms prevent the escape of contaminants and maintain the integrity of the sterile environment. The SSI-206 is designed to accommodate various inoculation techniques, including streaking, spreading, and plating of microbial cultures. The chamber's interior is spacious enough to accommodate multiple Petri dishes, culture plates, or other inoculation vessels, allowing for efficient and simultaneous processing of samples. User-friendly controls and interfaces facilitate easy operation of the chamber, allowing users to adjust airflow, lighting, and other parameters as needed. Intuitive features such as programmable timers and alarms enhance user convenience and ensure precise control over inoculation procedures. Compliance with international standards and regulations is a priority for the SSI-206, ensuring the safety and reliability of laboratory operations. Regular maintenance and validation services help ensure ongoing compliance and operational integrity, supporting the success of microbiological research and experimentation.

Type of Product : Inoculation Chamber

Model No : SSI-206

Material : Wooden and Glass

Power Source : Electric Corded

Application Area : Laboratories

Tube Type : Fluorescent Type

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U-Tech FRP Lining Stainless Steel Inner Chamber SSI-128

By U-Tech

₹69,619 - ₹1,10,919

The U-Tech FRP Lining Stainless Steel Inner Chamber SSI-128 stands as a pinnacle in laboratory equipment, offering a robust and versatile solution for a wide range of scientific and industrial applications. Combining the strength and durability of stainless steel with the chemical resistance and corrosion protection of FRP (Fiber-Reinforced Plastic) lining, the SSI-128 provides a safe and reliable environment for various laboratory processes and experiments. At its core, the SSI-128 features a stainless steel inner chamber, renowned for its durability, cleanliness, and resistance to corrosion. Stainless steel is an ideal material for laboratory equipment due to its non-reactive nature and ease of cleaning, ensuring the integrity of sensitive samples and materials stored within the chamber. Complementing the stainless steel construction is the FRP lining, which provides an additional layer of protection against corrosive chemicals, acids, and other harsh substances. The FRP lining enhances the chemical resistance of the chamber, making it suitable for applications that involve aggressive chemicals or corrosive materials, such as chemical synthesis, sample preparation, or storage of hazardous substances. The combination of stainless steel and FRP lining offers superior durability and longevity, ensuring the chamber withstands the rigors of daily laboratory use and maintains its structural integrity over time. This robust construction provides peace of mind to users, knowing that their valuable samples, materials, and equipment are housed in a secure and reliable environment. The SSI-128 is designed with versatility in mind, accommodating a variety of laboratory equipment, instruments, and processes. Whether used for storage, incubation, or experimentation, the chamber offers ample space and flexibility to meet the diverse needs of research, pharmaceutical, and industrial laboratories. Advanced safety features are integrated into the SSI-128 to ensure user protection and environmental compliance. Leak-proof seals, secure locking mechanisms, and safety interlocks minimize the risk of spills, leaks, and contamination, enhancing laboratory safety and regulatory compliance. User-friendly controls and interfaces facilitate easy operation and monitoring of chamber conditions, allowing users to adjust temperature, humidity, and other parameters with precision. Real-time monitoring and alarm systems provide alerts for any deviations from preset conditions, ensuring prompt action to maintain optimal operating conditions.

Type of Product : Inner Chamber

Model No : SSI-128

Color : Silver

Material : Stainless Steel

Application Area : Laboratories

Lining Material : FRP

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U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator for Laboratories SSI-117

By U-Tech

₹3,30,399  

U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator for Laboratories SSI-117 is a specialized equipment used to provide optimal conditions for seed germination. It creates an environment that promotes seed viability and stimulates the growth of healthy seedlings. Seed germinators are commonly used in research laboratories, agricultural facilities, nurseries, and botanical gardens.
The primary purpose of a seed germinator is to provide controlled conditions of temperature, humidity, and light to facilitate the germination process. Germination is the process by which a seed develops into a new plant, and it requires specific environmental conditions to occur successfully.
Seed germinators typically consist of an enclosed chamber or cabinet with adjustable temperature and humidity controls. The temperature control system allows users to set and maintain the desired temperature range, which is critical for activating enzymatic reactions and metabolic processes necessary for seed germination. The humidity control system regulates the moisture levels within the chamber to ensure the seeds have adequate water availability without being excessively wet or dry.
In addition to temperature and humidity control, some seed germinators also include lighting systems. Light is an essential environmental factor for many seeds, as it triggers the process of germination and influences seedling growth. The lighting systems in seed germinators often provide the appropriate spectrum and intensity of light required by the seeds being germinated.
Seed germinators offer several advantages over traditional germination methods. They provide a controlled and stable environment, free from external fluctuations and disturbances, which increases the success rate of germination. They also enable researchers and cultivators to study and optimize the germination process by manipulating specific environmental variables.
Seed germinators are used in a wide range of applications. In research laboratories, they are used to study seed physiology, test germination rates, and conduct experiments to improve germination techniques. In agriculture and horticulture, seed germinators are used for large-scale seed production, plant propagation, and nursery operations. They are also utilized in conservation efforts to preserve and propagate rare and endangered plant species.
Seed germinators often come with additional features to enhance functionality and user convenience. These may include programmable controls for different germination profiles, monitoring systems to track and record environmental parameters, and alarms or notifications to alert users of any deviations or issues.
In conclusion, a seed germinator is a specialized equipment used to provide controlled conditions for optimal seed germination. It creates an environment with precise temperature, humidity, and sometimes light conditions to promote successful germination and seedling growth. Seed germinators are widely used in research, agriculture, and conservation applications, offering benefits such as increased germination success rates, controlled experimentation, and efficient seed production.

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U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator for Laboratories SSI-118

By U-Tech

₹5,62,725  

U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator for Laboratories SSI-118 is a specialized equipment used to provide optimal conditions for seed germination. It creates an environment that promotes seed viability and stimulates the growth of healthy seedlings. Seed germinators are commonly used in research laboratories, agricultural facilities, nurseries, and botanical gardens.
The primary purpose of a seed germinator is to provide controlled conditions of temperature, humidity, and light to facilitate the germination process. Germination is the process by which a seed develops into a new plant, and it requires specific environmental conditions to occur successfully.
Seed germinators typically consist of an enclosed chamber or cabinet with adjustable temperature and humidity controls. The temperature control system allows users to set and maintain the desired temperature range, which is critical for activating enzymatic reactions and metabolic processes necessary for seed germination. The humidity control system regulates the moisture levels within the chamber to ensure the seeds have adequate water availability without being excessively wet or dry.
In addition to temperature and humidity control, some seed germinators also include lighting systems. Light is an essential environmental factor for many seeds, as it triggers the process of germination and influences seedling growth. The lighting systems in seed germinators often provide the appropriate spectrum and intensity of light required by the seeds being germinated.
Seed germinators offer several advantages over traditional germination methods. They provide a controlled and stable environment, free from external fluctuations and disturbances, which increases the success rate of germination. They also enable researchers and cultivators to study and optimize the germination process by manipulating specific environmental variables.
Seed germinators are used in a wide range of applications. In research laboratories, they are used to study seed physiology, test germination rates, and conduct experiments to improve germination techniques. In agriculture and horticulture, seed germinators are used for large-scale seed production, plant propagation, and nursery operations. They are also utilized in conservation efforts to preserve and propagate rare and endangered plant species.
Seed germinators often come with additional features to enhance functionality and user convenience. These may include programmable controls for different germination profiles, monitoring systems to track and record environmental parameters, and alarms or notifications to alert users of any deviations or issues.
In conclusion, a seed germinator is a specialized equipment used to provide controlled conditions for optimal seed germination. It creates an environment with precise temperature, humidity, and sometimes light conditions to promote successful germination and seedling growth. Seed germinators are widely used in research, agriculture, and conservation applications, offering benefits such as increased germination success rates, controlled experimentation, and efficient seed production.

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U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator With Heating and Cooling System SSI-118

By U-Tech

₹5,91,217  

U-Tech 555 x 605 x 910 mm Dual Chamber Seed Germinator With Heating and Cooling System SSI-118 is a specialized equipment used to provide optimal conditions for seed germination. It creates an environment that promotes seed viability and stimulates the growth of healthy seedlings. Seed germinators are commonly used in research laboratories, agricultural facilities, nurseries, and botanical gardens.
The primary purpose of a seed germinator is to provide controlled conditions of temperature, humidity, and light to facilitate the germination process. Germination is the process by which a seed develops into a new plant, and it requires specific environmental conditions to occur successfully.
Seed germinators typically consist of an enclosed chamber or cabinet with adjustable temperature and humidity controls. The temperature control system allows users to set and maintain the desired temperature range, which is critical for activating enzymatic reactions and metabolic processes necessary for seed germination. The humidity control system regulates the moisture levels within the chamber to ensure the seeds have adequate water availability without being excessively wet or dry.
In addition to temperature and humidity control, some seed germinators also include lighting systems. Light is an essential environmental factor for many seeds, as it triggers the process of germination and influences seedling growth. The lighting systems in seed germinators often provide the appropriate spectrum and intensity of light required by the seeds being germinated.
Seed germinators offer several advantages over traditional germination methods. They provide a controlled and stable environment, free from external fluctuations and disturbances, which increases the success rate of germination. They also enable researchers and cultivators to study and optimize the germination process by manipulating specific environmental variables.
Seed germinators are used in a wide range of applications. In research laboratories, they are used to study seed physiology, test germination rates, and conduct experiments to improve germination techniques. In agriculture and horticulture, seed germinators are used for large-scale seed production, plant propagation, and nursery operations. They are also utilized in conservation efforts to preserve and propagate rare and endangered plant species.
Seed germinators often come with additional features to enhance functionality and user convenience. These may include programmable controls for different germination profiles, monitoring systems to track and record environmental parameters, and alarms or notifications to alert users of any deviations or issues.
In conclusion, a seed germinator is a specialized equipment used to provide controlled conditions for optimal seed germination. It creates an environment with precise temperature, humidity, and sometimes light conditions to promote successful germination and seedling growth. Seed germinators are widely used in research, agriculture, and conservation applications, offering benefits such as increased germination success rates, controlled experimentation, and efficient seed production.

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U-Tech Stainless Steel Plant Growth Chamber SSI-119

By U-Tech

₹3,89,399 - ₹13,07,378

The U-Tech Stainless Steel Plant Growth Chamber SSI-119 represents a cutting-edge solution for controlled environment agriculture and plant research applications. Engineered with precision and equipped with advanced features, the SSI-119 provides researchers and agricultural professionals with a versatile platform for studying plant growth, development, and physiology under precisely controlled conditions. At the core of the SSI-119 is its stainless steel construction, which offers durability, corrosion resistance, and hygiene essential for maintaining a sterile and controlled environment for plant growth experiments. The chamber's robust design ensures longevity and reliability, making it suitable for long-term research projects and commercial plant cultivation applications. The SSI-119 features precise environmental control systems that allow users to manipulate key growth parameters such as temperature, humidity, light intensity, and photoperiod to mimic specific environmental conditions. This level of control enables researchers to create customized growth conditions tailored to the needs of different plant species and experimental objectives, facilitating a wide range of research studies and applications. Integrated lighting systems provide uniform and adjustable illumination to support plant growth and development throughout the chamber. Full-spectrum LED lighting options mimic natural sunlight, promoting photosynthesis and providing optimal conditions for plant growth while minimizing energy consumption and heat generation. Advanced climate control systems maintain stable temperature and humidity levels within the chamber, ensuring optimal plant health and productivity. Precise temperature regulation prevents temperature fluctuations that can stress plants and affect growth, while adjustable humidity levels accommodate the requirements of different plant species and growth stages. The SSI-119 is equipped with intuitive control interfaces and software that simplify experimental setup, data monitoring, and management. User-friendly features such as programmable growth protocols, real-time data logging, and remote monitoring capabilities enhance user convenience and productivity, allowing researchers to monitor and adjust growth conditions with ease. Furthermore, the SSI-119 is designed to accommodate modular shelving and accessories, allowing for flexible configuration and optimization of space for different research requirements. Removable trays and adjustable shelving systems facilitate easy access to plants for observation, sampling, and maintenance throughout the experiment duration. Compliance with international standards and regulations ensures the safety and reliability of the SSI-119 for use in research, education, and commercial applications. Regular maintenance and calibration services help ensure ongoing compliance and operational integrity, supporting the success of plant research and cultivation projects.

Type of Product : Plant Growth Chamber

No. of Shelves : Three

Model No : SSI-119

Material : Stainless Steel

Lighting Type : Fluorescent Tubes

Application Area : Laboratories

Operating Temperature : 5 to 50°C

Insulation Material : High Grade Glass Wool

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U-Tech Stainless Steel Spare Tray for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹4,011  

The U-Tech Stainless Steel Spare Tray is a replacement tray specifically designed for use with the Dual Chamber Seed Germinator model SSI-118 manufactured by U-Tech. This spare tray serves as an additional or replacement component for the original trays that come with the seed germinator, providing convenience and flexibility in seed germination and plant growth experiments.
The spare tray is made of high-quality stainless steel, which offers durability, corrosion resistance, and ease of cleaning. Stainless steel is a preferred material for laboratory equipment as it is non-reactive, hygienic, and can withstand frequent use and sterilization processes.
The dual chamber seed germinator model SSI-118 is a specialized equipment used for studying seed germination, plant growth, and related experiments. It consists of two separate chambers that provide independent environmental control for each chamber, allowing different temperature, humidity, and lighting conditions to be set for optimal seed germination and plant growth.
The spare tray is designed to fit perfectly within the seed germinator's chamber, providing a stable platform for holding seed trays, pots, or other containers used for seed germination. It features a perforated design, allowing for proper air circulation around the seeds or plants, ensuring adequate oxygen supply and preventing the build-up of excess moisture.
By having a spare tray, users can easily replace damaged or worn-out trays or expand the capacity of the seed germinator by adding an extra tray. This enables efficient utilization of the equipment, allowing for simultaneous germination and growth of a larger number of seeds or plants.
The U-Tech Stainless Steel Spare Tray for the Dual Chamber Seed Germinator SSI-118 is a reliable and practical accessory that enhances the functionality and versatility of the seed germinator. It is designed to meet the specific requirements of the SSI-118 model, ensuring compatibility and seamless integration into the seed germination process.

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U-Tech 4 kVA Triple Relay Automatic Stabilizer for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹25,959  

U-Tech 4 kVA Triple Relay Automatic Stabilizer for Dual Chamber Seed Germinator SSI-118 refers to a fiscal or economic policy feature that helps stabilize an economy without requiring explicit, discretionary intervention from policymakers. It is designed to automatically mitigate the impact of economic fluctuations and stabilize aggregate demand during periods of expansion or contraction.
One example of an automatic stabilizer is the progressive income tax system. In times of economic growth, individuals and businesses earn higher incomes, leading to an increase in tax revenues. As a result, the government's tax revenue automatically rises, helping to reduce the fiscal deficit or even generate a surplus. This helps to moderate the pace of economic expansion and prevent overheating.
Conversely, during economic downturns, when incomes decline, individuals and businesses pay lower taxes, reducing their tax burden. This increase in disposable income allows households and firms to maintain a certain level of consumption and investment, thereby cushioning the impact of the economic downturn.
Another example of an automatic stabilizer is the unemployment insurance system. During economic contractions, the number of unemployed individuals tends to rise. Unemployment insurance provides temporary financial assistance to those who have lost their jobs. This helps support individuals and their families during difficult times, maintaining a basic level of consumption and reducing the severity of the economic downturn.
Automatic stabilizers have several advantages. First, they operate without the need for discretionary action, which can be time-consuming and subject to political constraints. Second, they are countercyclical in nature, meaning they automatically respond to changes in the business cycle, helping to stabilize economic activity. Third, they provide a degree of certainty and predictability to households and businesses, as they know that certain measures are in place to support them during economic downturns.
In summary, automatic stabilizers are built-in features of fiscal and economic policies that help stabilize an economy by automatically adjusting tax revenues, government spending, and social welfare programs in response to economic fluctuations. They play a crucial role in smoothing the business cycle, reducing volatility, and providing support to individuals and businesses during challenging economic times.

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U-Tech Humidity Controller Chamber for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹23,599  

U-Tech Humidity Controller Chamber for Dual Chamber Seed Germinator SSI-118 is a specialized enclosure or room designed to control and regulate humidity levels for various purposes, such as research, manufacturing, storage, and testing. It provides a controlled environment where humidity can be precisely maintained at desired levels to meet specific requirements.
The primary function of a humidity controller chamber is to create and maintain a stable and controlled humidity environment. It consists of a chamber or enclosure equipped with humidity control systems and sensors. These systems typically include humidifiers, dehumidifiers, air circulation mechanisms, and a microprocessor-based controller.
The humidity control systems work in conjunction with the sensors to monitor and adjust the humidity levels inside the chamber. When the humidity falls below the desired setpoint, the humidifier adds moisture to the air, increasing the humidity. Conversely, when the humidity exceeds the setpoint, the dehumidifier removes moisture, reducing the humidity. The microprocessor-based controller receives feedback from the sensors and activates the appropriate control devices to maintain the desired humidity level.
Humidity controller chambers offer several benefits and applications. In research and testing environments, they are used to create controlled conditions for scientific experiments, calibration procedures, and quality assurance testing. They are also employed in manufacturing processes that require specific humidity levels, such as pharmaceutical production, semiconductor fabrication, and food processing. In these applications, precise humidity control is crucial to ensure product quality, stability, and reliability.
Storage facilities, such as archives, museums, and laboratories, utilize humidity controller chambers to preserve sensitive items, including artwork, documents, and biological samples. Controlling humidity levels helps prevent deterioration, mold growth, and damage caused by moisture. Similarly, in the horticulture industry, humidity controller chambers are used to create ideal growing conditions for plants, ensuring optimal growth and health.
Humidity controller chambers often include additional features to enhance functionality and user convenience. These may include programmable settings for different humidity profiles, data logging capabilities for recording and analyzing humidity conditions, alarms and notifications for alerting users of deviations from setpoints, and user-friendly interfaces for easy operation and monitoring.
In summary, a humidity controller chamber is a specialized enclosure that allows for precise control and regulation of humidity levels. It employs humidity control systems, sensors, and a microprocessor-based controller to maintain desired humidity conditions. Humidity controller chambers find applications in various fields, including research, manufacturing, storage, and testing, where precise humidity control is essential for product quality, preservation, and optimal performance.

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U-Tech PID Controller Microprocessor for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹33,039  

U-Tech PID Controller Microprocessor for Dual Chamber Seed Germinator SSI-118 is a device that utilizes a microprocessor to implement a PID (Proportional-Integral-Derivative) control algorithm for precise and accurate control of a system's output. It is commonly used in various industrial processes, automation systems, and robotics applications.
The PID control algorithm is a widely used control technique that aims to maintain a desired setpoint by continuously adjusting the system's output based on feedback from sensors. It calculates control signals by considering three components: proportional, integral, and derivative.
The microprocessor in a PID controller plays a crucial role in executing the PID algorithm. It receives input signals from sensors that measure the system's output and compares it to the desired setpoint. The microprocessor then processes this information using the PID algorithm to calculate the appropriate control signal.
The proportional component of the PID algorithm provides an output proportional to the difference between the setpoint and the measured value. The integral component integrates the error over time, which helps to eliminate steady-state errors. The derivative component considers the rate of change of the error, providing a control action based on the rate of error change. By combining these three components, the PID controller microprocessor adjusts the system's output in a balanced and responsive manner.
The microprocessor in a PID controller allows for flexibility and adaptability. It can be programmed to fine-tune the PID algorithm parameters, such as the proportional, integral, and derivative gains, to optimize the controller's performance for a specific system. These parameters can be adjusted to achieve desired control objectives, such as minimizing overshoot, reducing settling time, or maintaining stability.
PID controller microprocessors often include additional features to enhance their functionality and ease of use. These may include digital displays for monitoring system parameters, user interfaces for configuring settings and setpoints, communication ports for data exchange with other devices or systems, and built-in diagnostics for fault detection and troubleshooting.
The benefits of using a PID controller microprocessor include precise and accurate control of systems, improved stability, reduced errors, and the ability to adapt to changing conditions. They find applications in various fields, such as temperature control, speed regulation, flow control, and position control, where precise control and responsiveness are crucial.
In summary, a PID controller microprocessor is a device that utilizes a microprocessor to implement the PID control algorithm for precise and accurate control of a system's output. It calculates control signals based on feedback from sensors and adjusts the system's output in a balanced and responsive manner. PID controller microprocessors offer flexibility, adaptability, and improved control performance, making them valuable tools in industrial processes, automation systems, and robotics applications.

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U-Tech 24 hours Regulating Timer for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹9,203  

U-Tech 24 hours Regulating Timer for Dual Chamber Seed Germinator SSI-118 is an electronic device used to control and regulate the timing of various processes and operations. It provides a means to set specific time intervals and cycles, allowing for precise control over the duration and timing of events. Regulating timers find applications in a wide range of industries, including manufacturing, automation, and home appliances.
The primary function of a regulating timer is to ensure that processes or operations occur for a predefined duration or at specific time intervals. The timer typically consists of a control interface, such as a dial or digital display, that allows users to set the desired time parameters. This can be done by rotating the dial or inputting values using buttons or a touchscreen interface, depending on the specific model.
Once the time parameters are set, the regulating timer initiates and tracks the timing of the process or operation. It can control the activation or deactivation of equipment, signal the start or end of a process, or trigger other actions based on the programmed timing sequence.
Regulating timers offer various modes of operation to suit different requirements. They may include countdown timers, which start from a specified time and count down until reaching zero, or interval timers, which trigger events at set intervals. Some regulating timers also feature programmable settings, allowing users to save and recall multiple timing sequences or configure complex timing patterns.
In industrial settings, regulating timers play a critical role in process control and automation. They can be used to time production cycles, control the operation of machinery, regulate the duration of specific stages in a process, or coordinate multiple operations to ensure efficient and synchronized workflows.
Regulating timers are also commonly found in household appliances and consumer electronics. For example, they can be used in washing machines to control the duration of different wash cycles or in ovens to regulate cooking times. They are also used in lighting systems to automate on/off cycles or dimming functions.
The benefits of using regulating timers include improved efficiency, consistency, and automation. By precisely controlling the timing of processes and operations, regulating timers help optimize resource utilization, reduce manual intervention, and ensure consistent and reliable performance. They provide convenience and reliability in various applications, allowing for better time management and increased productivity.
In summary, a regulating timer is an electronic device used to control and regulate the timing of processes and operations. It allows users to set specific time intervals or durations, triggering events or actions based on the programmed timing sequence. Regulating timers find applications in manufacturing, automation, and household appliances, offering benefits such as improved efficiency, consistency, and automation.

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U-Tech Microprocessor Based Programmable Timer for Dual Chamber Seed Germinator SSI-118

By U-Tech

₹24,779  

U-Tech Microprocessor Based Programmable Timer for Dual Chamber Seed Germinator SSI-118 is an electronic device that utilizes a microprocessor to control and regulate timing functions. It allows users to program and automate specific time-based operations or events. These timers are commonly used in various applications such as industrial processes, home automation systems, appliances, and scientific experiments.
The key component of a microprocessor-based programmable timer is the microprocessor itself, which serves as the brain of the device. The microprocessor is programmed with a set of instructions that dictate the timing functions and operations. It can store multiple programs and execute them based on the user's settings.
The programmable timer typically features a digital display or interface that allows users to set the desired time parameters. This can be done using buttons or a touchscreen interface, depending on the specific model. Users can program the timer to start and stop at specific times or durations, configure repetitive cycles, or set up complex timing sequences with multiple steps.
One of the main advantages of a microprocessor-based programmable timer is its flexibility and versatility. Users have the freedom to customize the timing functions according to their specific needs. They can set up timed events for turning on or off electrical devices, controlling the duration of processes, or triggering actions based on specific time intervals.
These timers often come with additional features to enhance their functionality. These may include real-time clock functions, battery backup to retain programmed settings during power outages, multiple programmable channels for simultaneous operations, and the ability to save and recall preset programs.
Microprocessor-based programmable timers offer several benefits. They help streamline and automate processes, increase efficiency, and reduce the need for manual intervention. In industrial applications, they can control the timing of machinery, regulate production cycles, and coordinate various operations. In home automation systems, they can control lighting, heating, and cooling systems, and automate daily routines. In scientific experiments, they can precisely control the timing of events and data collection.
In summary, a microprocessor-based programmable timer is an electronic device that utilizes a microprocessor to control and regulate timing functions. It allows users to program and automate specific time-based operations. These timers provide flexibility, versatility, and precise control over timing parameters, offering benefits in industrial, home automation, and scientific applications.

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