LaboratoryInstrumentIndia is a distinguished name in the domain of medical training lab equipment manufacturers, suppliers, and exporters, catering to clients in India, China, and Kenya. We specialize in providing a comprehensive range of high-quality medical training laboratory instruments that are essential for medical education and training purposes.
Our product portfolio includes distillation columns unit, modular evaporator family unit, stirred tank reactors in series, fixed bed adsorption unit, and more. These instruments are meticulously designed and crafted to simulate real-life medical scenarios, enhancing the learning experience for medical students, professionals, and researchers.
At LaboratoryInstrumentIndia, we prioritize quality, precision, and innovation. Our state-of-the-art manufacturing facilities and stringent quality control processes ensure that our medical training lab instruments meet international standards of excellence and durability.
Choose LaboratoryInstrumentIndia as your trusted partner for reliable, high-performance medical training lab equipment. Our instruments empower medical institutions, training centers, and healthcare professionals to deliver top-notch education and training in various medical disciplines.
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The equipment employs galvanically isolated intrinsically safe circuits and flameproof devices as appropriate, to enable safe distillation of standard test mixtures such as methylcyclohexane-toluene, methyl alco hol-water etc.
The unit is a self-contained and fully instrumented distillation facility, suitable for practical laboratory work relevant to the teaching of unit operations.
The equipment consists of two interconnected units: a floor standing process unit and a bench-mounted control console.
A laboratory evaporation system capable of being configured as rising or falling film, single or double effect.
Integral USB interface for computer data logging and control.
Contains vacuum pump, condenser and condensate vessel.
Temperature controlled pre-heat stage.
Adjustable re-circulation on each evaporation stage.
Manual control console.
Options to operate from external steam supply, or integral electrically heated pressurized hot water circulator.
A dead-time residence coil can also be attached to the exit of the last reactor in the series.
A self-contained bench mounted small scale unit fitted with three continuous stirred reactors in series which are fed from two 5 litre tanks. Each reactor is fitted with a conductivity probe.
There are two independent, variable speed feed pumps.
The hot water circulator system connected to the column jacket enables automatic control of temperature adsorption to a set point value.
A benchtop unit comprising a vacuum formed ABS plastic plinth with integral electrical console onto which is mounted the stainless steel, packed fixed bed adsorption column, hot water circulation system and infrared detector.
Gas feed flow rate can be controlled between 0 and 5 l/min.
A benchtop unit comprising a vacuum formed ABS plastic plinth with integral electrical console onto which is mounted the stirred glass crystallisation vessel, water heater, water flow meter and heat exchanger.
A conductivity probe measuring solution conductivity.
A cooling action controlled indirectly by the valved flow meter.
Protection devices for all electrical circuits.
A temperature sensor and 2kW water heater mounted in the mains water line and linked to a PID controller for accurate process temperature control.
Set of sieves for Crystal Size Distribution determination.
Comprehensive instruction manual with detailed laboratory teaching exercises.
Two displays: PID temperature control (reactor temperature), display for conductivity.
Sensor signals are routed to the USB interface for connection to a PC.
USB port for data logging by the supplied software.
A compact desktop tray dryer suitable for laboratory use.
Computer control of temperature and air flow rate, with sophisticated data logging and analysis software.
Integrated electronic weight measurement to determine drying rate.
Electronic measurement of air flow.
Stainless Steel Construction.
Electronic measurement of temperature and humidity before and after the drying trays.
Capacity: up to 2.1 Kg of wet material.
Flow rates, 0.4 - 3.0m/s over trays.
Temperatures up to 80°C at 0.4 m/s less at higher flows.
Easy and safe access for maintenance and inspection, with door isolator to the main electrical enclosure.
A floor-standing continuous steam generator.
Solid state level control on feed water tank.
Splash proof electrical enclosure and switches.
Manufactured in accordance with Module G of the European Pressure Equipment directive.
A comprehensive instruction manual.
Comprises both wetted wall column and a deoxygenating column, a water tank, two water pumps, an air pump and an oxygen meter with two probes.
A floor standing apparatus, used for demonstration and determination of liquid film mass transfer coefficients.
The deoxygenating column is 1570mm long, 26mm internal diameter, and made of clear acrylic.
The wetted wall section is 900mm long, 32mm internal diameter, and made of glass.
The equipment is used to study absorption of oxygen from air into deoxygenated water, specific demonstrations include:
Calculation of liquid film mass transfer coefficient
Determination of the power law relationship
Variation of this coefficient with mass flow rate.
The water being the heaviest in gravity stays at the bottom whilst the oil floats on top and the gas occupies the void space in the vessel. At the secondary separating section, the fluids are allowed to slow down and separate by gravity.
A combination of refined oil, water and air enters the vessel, the flow is directed to the spherical end of the vessel where primary separation occurs and then flows through the vessel where it meets the coalescer.
A self contained bench top service unit designed to provide services for up to five different chemical reactors:
Transparent Batch Reactor
Plug flow reactor
Continuous Stirred Tank Reactor
Tubular Reactor
Laminar Flow reactor
Fully computer controlled and supplied with educational software (32/64 bit) specific to each reactor type. Simple interfacing to the (user supplied) computer by a USB interface
Provides PID temperature controlled hot water in order to maintain reactor temperature.
Complete with two thermocouples, an input for a third (user) thermo couple and a dual range conductivity sensor.
Two peristaltic feed pumps with individually variable flow rates, 0-140 ml/min.
A benchtop unit comprising a vacuum formed ABS plastic plinth with integral electrical console on to which is mounted the filtration system.
All electrical circuits are protected by appropriate protection devices.
The console contains a pump motor control and display panel.
A separate controller displays the filter inlet pressure and is used to control the pump speed. Another digital meter displays, via a selector switch, either outlet pressure, permeate pressure, temperature or optical absorbence.
A plate and frame batch filter (separation area 230cm²) is supplied as standard. Both constant flow rate and constant pressure operation are possible.
Feed flow rate can be varied between 0 and 130 l/hour.
An optional tangential flow hollow fiber micro filtration cartridge (plus pre-filter and shell and tube heat exchanger) can be fitted. The hollow fibre cartridge has a separation area of 110cm² and a cut-off of 0.2 µ-m.
A laboratory liquid liquid extraction column designed for use with Kerosene Paraffin and Acetic acid.
Organic phase circulation system with an 18l feed tank, 18l return tank and variable speed air operated pump. Pump is calibrated and gives flows of 50-250ml/min.
Column length 1.6m (1.2m working length), 50mm diameter, made from glass.
Column packed with 15mm glass Rashig rings.
Includes valves for taking samples of both phases for analysis.
Touch panel for control / calibration of pumps and display of measurements.
A single valve sets either the organic phase or the aqueous phase as the continuous phase .
Aqueous phase circulation system with a 25l feed tank, 25l return tank and variable speed pump. Pump is calibrated and gives flows of 50-250ml/min.
Fine adjustment of the lower phase interface to compensate for variation in specific gravity of the Kerosene.
The air flow rate is measured using pressure sensors at discharge orifices at the top of the columns. The two air columns are fed by variable pressure regulators, which can be used to adjust the air flow rate through the column. The integral micro controller calculates the flow rates from the pressure readings and displays these on the front panel.
The apparatus comprises three clear acrylic columns mounted above a moulded ABS base. This column features an overflow pipe, which returns the water back into the sump. The base contains a water reservoir with a variable speed submersible pump, which pumps water through an electronic flow meter into the base of the left hand column.
Pressure drops on all three columns are measured by differential pressure sensors connected to tapping points at the top and bottom of the columns. The software also provides powerful graph plotting facilities. All process measurements are displayed simultaneously on the front panel display and are available on the USB output for data logging.
Ball mill and V blender can be quickly disconnected from the drive arrangement and easily removed from the protective enclosure to aid filling, emptying and cleaning.
Exercises split between three separate units allowing only relevant equipment to be purchased or simultaneous use by more than one group of students at a time
Hele-Shaw cell employed to give clear and accurate measurement of angle of repose and to demonstrate the behaviour of mixtures of different grains.
Ball mill and V blender operate inside a protective enclosure to minimise risk to the operator from rotating components or dust.
Enclosure for backboard, constructed from durable PVC plastic for serviceability
Vibratory shaker with sieves allows different particle sizes to be seperated.
Hele-Shaw cell, ball mill and V blender all constructed using clear acrylic where practicable to aid viewing.
Column working length is 1.4m x 80mm diameter, split into two sections.
An apparatus for teaching the principles of the absorption of gas into liquid, using a packed column.
Water flow can be used in either recycle or one-pass operation.
Column supplied with 10mm x 10mm Raschig rings as packing material, total volume 7 liters.
Two electronic pressure sensors measure the pressure drop across each half of the column.
An electronically controlled submersible pump provides a liquid flow of 1-10 l/min.
60l feed tank.
Electronic measurement of CO2 concentration in the air streams, measurements can be taken at the column inlet and outlet.
Sensor values displayed on an alpha-numeric display on the control console.
Centrifugal fan provides air flow up to 160 l/min.
Two electronic temperature sensors measure the air and liquid temperatures.
The corrosion studies kit allows simultaneous study of up to eight corrosion cells each containing three test specimens.
Corrosion rates measured visually and by weighing.
Stirring by air or inert gas.
Sample mounting in a manner to minimise secondary effects.
Comprising:
A service panel
Air pump
Test cell supports
Platinum electrodes
Low voltage supply
Digital pH meter
Specimen pieces of steel, zinc, brass and copper
Associated glassware, tubing and wiring.
Eight test cells of glass construction, with specially machined lids enabling samples to be mounted.
The apparatus comprises a clear acrylic mixing vessel mounted on a stainless steel base. Above this is mounted a variable speed electronic mixer with electronic torque measurement incorporated.
The rushton turbine impellor is a one piece stainless steel fabrication with eight alternate upwards and downwards pointing blades.
A set of pvc baffles can be fitted into the mixer with a simple screw mechanism to hold them in place. Under the stainless steel base is a storage compartment for the various small mixer components and the simple tools hexagonal keys required to change them. The larger mixer components are stored on pins behind the vessel.
The blades are simple to configure and position accurately in place using a single screw.
A propeller type stirrer is also included for comparison.
The flat blade impellor comes with six sizes of blade, each of which can be fitted in seven positions (vertical, plus 30/45/60 degrees leading and trailing edge).
In practice, a small volume of concentrated solution is placed on one side of the honeycomb, whilst the other side consists initially of a large volume of pure solvent water. As diffusion of the solute occurs, the concentration within the larger volume increases, and is monitored with a conductivity sensor and meter.
Liquid Diffusion Coefficients Apparatus has developed a unique diffusion cell, which overcomes the traditional problem of slow diffusion rates in liquids requiring long observation times, but without sacrificing accuracy or introducing convective effects.
The mixture is continuously stirred with a magnetic stirrer to ensure uniform concentration within the bulk liquid. Essentially, the cell consists of a honeycomb of accurately dimensioned capillaries, positioned between two liquids of differing concentration of the solute whose diffusion coefficient is to be determined. Whilst the conductivity sensor may be readily calibrated for any required aqueous system, for introductory studies, dilute solutions of sodium chloride are recommended, for which conductivity data is provided.
Self contained floor standing unit with integral control and instrumentation console
Probes at each stage allow full monitoring of the process With the data logger, the product concentrations can be directly displayed in real time (for the recommended material)
Three stage extraction process, can also be configured as one or two stages
Independent vessel for closed loop batch extraction
Temperature control at each stage
Individual control of solvent feed pumps at each stage, of cell rotation rate and of feed rate
Optional data logging accessory with USB interface and educational software.
A stream of air is passed across the top of the capillary tube, with a stationary layer of air above the liquid surface, creating a partial pressure difference between the liquid surface and the flowing air stream. Measurement of how this phase boundary changes with time enables the molar mass transfer rate to be determined. As vapour diffuses from the liquid into the air stream, the amount of liquid in the tube reduces and the phase boundary between the liquid and the air drops.
A small quantity of the volatile liquid to be investigated is placed in a capillary tube, which is positioned in a heated metal block. The block is heated by an electric cartridge heater and kept at a constant temperature using an electronic control loop.
A bench top unit comprising a vacuum formed ABS plastic plinth with integral electrical console on to which is mounted the packed bed reactor columns, feed pump, optical sensor and optional Flow Injection Analysis system.
A heated water supply to the column jackets allows automatic control of reaction temperature to a set point value.
Feed flow rate can be varied between 0 and 15 ml/min.
The unit is supplied as standard with two reactor columns for chemical catalysis.
A third column can be optionally added to the system for biological enzymic catalysis.
The console has two digital meters. The first, associated with the controller, shows the temperature of water supplied to the column jackets, and the second shows the optical sensor reading which provides a measure of product concentration. Corresponding signals are routed to the I/O port for connection to a PC.
The optional FIA pump can be adjusted to give flow rates up to 2.5 ml/min.
All electrical circuits are fitted with appropriate protection devices.