Advanced Technocracy Inc. Ambala, Haryana

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Chemical Reaction Engineering Lab Equipment

Computer Controlled Adiabatic Batch Reactor

Computer Controlled Adiabatic Batch Reactor

Computer Controlled Adiabatic Batch Reactor (With Data Logging Facility)

Description:

The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc.

An adiabatic batch reactor is a closed system with no input and output streams. This reactor is operated under conditions like adiabatic (Temperature of Reaction Mass keep on changing), Perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass). This set-up is used to study a catalytic homogeneous reaction under adiabatic condition. The set-up consists of a Dewar flask of capacity 1 lit. fitted with a stirrer. The flask is double insulated by ceramic wool insulation. Temp. is observed from digital temp indicator. The whole setup is mounted on a rigid M.S. frame.

Utilities Required:

Technical Details:

 

Adiabatic Batch Reactor

Adiabatic Batch Reactor

Adiabatic Batch Reactor

Description:

An adiabatic batch reactor is a closed system with no input and output streams. This reactor is operated under conditions like adiabatic (Temperature of Reaction Mass keep on changing), Perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass). This set-up is used to study a catalytic homogeneous reaction under adiabatic condition. The set-up consists of a Dewar flask of capacity 1 lit. fitted with a stirrer. The flask is double insulated by ceramic wool insulation. Temp. is measured by digital temp indicator. The whole setup is mounted on a rigid M.S. frame.

Utilities Required:

Technical Details:

 

Chemical Reactor Service Unit

Chemical Reactor Service Unit

Chemical Reactor Service Unit (Peristaltic Pump Feed System)

Description:

Each reactor, mounted on a base plate can be attached to the service unit. The appropriate services such as feed circulation, instrumentation for and temperature measurement are connected to the reactor, and it then becomes operational. This service unit comprises feed tanks, peristaltic pumps for feed circulation & measurement etc. These all things are mounted on a compact and well-designed base for bench mounting. This is self-contained bench top service unit to accommodate the reactors, one at a time, for conducting experiments on the same unit. This set-up is designed to conduct experiments on different types of chemical reactors on the same service unit. Different types of reactors i.e. Continuously Stirred Tank Reactor (CSTR), Plug Flow Tubular Reactor (Coiled Tube Type) and Batch Reactor (which will be supplied on extra cost) as separate units can be installed on the service unit individually one at a time for conducting experiments. Basically this range of small-scale chemical reactors represents the most common types of chemical reactor found in industry. The reactors use the saponification reaction between ethyl acetate and sodium hydroxide. This provides a well-understood and safe reaction for the students to investigate the different reactor types.

Utilities Required:

Technical Details:

Chemical Reactor Service Unit

Chemical Reactor Service Unit

Chemical Reactor Service Unit (Compressed Air Feed System)

Description:

The appropriate services such as feed circulation, instrumentation for and temperature measurement are connected to the reactor, and it then becomes operational. This service unit comprises feed tanks, rotameters for flow measurement of reactant etc. Compressed air is used for feed circulation. These all things are mounted on a compact and well-designed base for bench mounting. This is self-contained bench top service unit to accommodate the reactors, one at a time, for conducting experiments on the same unit. This set-up is designed to conduct experiments on different types of chemical reactors on the same service unit. Different types of reactors i.e. Continuously Stirred Tank Reactor (CSTR), Plug Flow Tubular Reactor (Coiled Tube Type) and Batch Reactor (which will be supplied on extra cost) as separate units can be installed on the service unit individually one at a time for conducting experiments. Basically this range of small-scale chemical reactors represents the most common types of chemical reactor found in industry. The reactors use the saponification reaction between ethyl acetate and sodium hydroxide. This provides a well-understood and safe reaction for the students to investigate the different reactor types. Each reactor, mounted on a base plate can be attached to the service unit.

Utilities Required:

Technical Details:

 

Computer Controlled Chemical Reactor Service Unit

Computer Controlled Chemical Reactor Service Unit

Computer Controlled Chemical Reactor Service Unit (With Data Logging Facility)

Description:

The reactors use the saponification reaction between ethyl acetate and sodium hydroxide. This provides a well-understood and safe reaction for the students to investigate the different reactor types. Each reactor, mounted on a base plate can be attached to the service unit. The appropriate services such as feed circulation, instrumentation for temperature measurement & conductivity measurement for analysis are connected to the reactor, and it then becomes operational. This service unit comprises feed tanks, peristaltic pumps for feed circulation & Conductivity sensor for analysis. Flow of feed is controlled by computer signal. These all things are mounted on a compact and well-designed base for bench mounting. This is self-contained bench top service unit to accommodate the reactors, one at a time, for conducting experiments on the same unit. This set-up is designed to conduct experiments on different types of chemical reactors on the same service unit. Different types of reactors i.e. Continuously Stirred Tank Reactor (CSTR), Plug Flow Tubular Reactor (Coiled Tube Type) and Batch Reactor (which will be supplied on extra cost) as separate units can be installed on the service unit individually one at a time for conducting experiments. Basically this range of small-scale chemical reactors represents the most common types of chemical reactor found in industry.

Utilities Required:

Technical Details:

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor (Constant Head Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and one overhead feed tank. Water is fed to the reactor through liquid distributor, fitted at the bottom of the column. Rotameter is provided to measure the flow of water. The flow rate can be adjusted by operating the needle valve provided on Rotameter. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe, is provided. Samples can be taken periodically from the top outlet of reactor. Axial diffusion and dispersion of fluid in packed beds are important for design and operation of separation equipment and Chemicals reactors. The tracer technique, the most widely used method for the study of axial dispersion. In stimulus response experimentation, we perturb the system using pulse input of tracer and then see how the system reacts or responds to this stimulus. The analysis of the response gives the desired information about the system.

Utilities Required:

Technical Details:

Annular UV Photo Reactor

Annular UV Photo Reactor

Annular UV Photo Reactor (Peristaltic Pump Feed System)

Description:

The set-up is used to study a photo catalytic reaction using a UV source provided in the form of an UV tube. This set-up can be used to carry out a parameter study under batch/continuous flow condition. A photo catalyst like TiO2 can be used. This set-up can also be used to study the mineralization of liquid effluent industrial streams & for purification of water. The set-up consists of reactor with inside reflecting surface. An UV source surrounding glass/quartz cylinder is placed centrally in the reactor.

Utilities Required:

Technical Details:

 

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor (Peristaltic Pump Feed System)

Description:

A isothermal semi-batch reactor is a semi-closed system with one input stream. It is operated under conditions like Isothermal (Temperature of Reaction Mass remains constant) and perfectly mixed (composition of reaction mixture is uniform throughout). This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition.

Utilities Required:

Technical Details:

 

Computer Controlled Annular UV Photo Reactor

Computer Controlled Annular UV Photo Reactor

Computer Controlled Annular UV Photo Reactor (With Data Logging Facility)

Description:

The educational software and data logging package has been developed for this unit. It provides a comprehensive educational software environment within which the investigations can be performed. This software runs in Windows XP. It is capable to tabulate the samples readings according to requirement of experiment under study and results obtained can be compared. Interfacing the set up with computer using software can do the real time data acquisition. Data can be transferred in Excel Files for further calculations, plotting graphs etc. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc. The set-up is used to study a photo catalytic reaction using a UV source provided in the form of an UV tube. This set-up can be used to carry out a parameter study under batch/continuous flow condition. A photo catalyst like TiO2 can be used. This set-up can also be used to study the mineralization of liquid effluent industrial streams & for purification of water. The set-up consists of reactor with inside reflecting surface. An UV source surrounding glass/quartz cylinder is placed centrally in the reactor.

Utilities Required:

Technical Details:

Computer Controlled Isothermal Semi batch Reactor

Computer Controlled Isothermal Semi batch Reactor

Computer Controlled Isothermal Semi batch Reactor

Description:

The set up consists of a Reactor fitted in a constant temperature water bath. Before starting the reaction the reactor is charged with measured quantity of one reactant. From a feed tank another reactant is fed to the reactor. Peristaltic Pump is provided to measure the flow of Chemical. One stirrer is fitted for mixing the reactants in reactor and other is fitted in water bath to keep the uniform temperature throughout in the bath. The temperature of bath can be maintained from ambient to 70 DegreeC with the help of Digital Temperature indicator Cum Controller. A isothermal semi-batch reactor is a semi-closed system with one input stream. It is operated under conditions like Isothermal (Temperature of Reaction Mass remains constant) and perfectly mixed (composition of reaction mixture is uniform throughout). This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition.

Utilities Required:

Technical Details:

 

Combined Flow Reactor

Combined Flow Reactor

Combined Flow Reactor (With Data Logging Facility)

Description:

This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition in a combined reactor. It consists of two reactors connected in series, one is plug flow reactor and another mixed flow reactor. In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. Concentration of reactants varies along the length of reactor but not in radial direction. In case of a coil turbulence is introduced due to frequent change in direction of flow and presence of secondary flow, so a higher value of reaction rate constant is expected in coil tube type plug flow reactor. The set up consists of two feed tanks through which two reactants are fed to the reactors fitted in series Peristaltic Pumps are provided to measure the individual flow of Chemicals. 1st is a helical coil tube type reactor made up of SS pipe. Reactants enter at lower end coming out of the top of coil from where it is fed to a MFR fitted with stirrer for proper mixing. Samples are collected for analysis.

Utilities Required:

 

Technical Details:

 

Packed Bed Reactor

Packed Bed Reactor

Packed Bed Reactor (Compressed Air Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and two feed tanks. Reactants are fed to the reactor through liquid distributor, fitted at the bottom of the column. Rotameters are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. The compressed air is used for circulation of feed. Samples can be taken periodically from the top outlet of reactor. Pressure Regulator & Pressure Gauge are fitted in the compressed air line.

Utilities Required:

Technical Details:

 

Packed Bed Reactor

Packed Bed Reactor

Packed Bed Reactor (Peristaltic Pump Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and two feed tanks. Reactants are fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic pumps are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating respective Peristaltic pumps. Samples can be taken periodically from the top outlet of reactor.

Utilities Required:

Technical Details:

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor

Description:

The set up consists of a Reactor fitted in a constant temperature water bath. Before starting the reaction the reactor is charged with measured quantity of one reactant. From a overhead feed tank another reactant is fed to the reactor. Using a sampling pipette samples can be taken out for analysis after fixed interval. Rotameter is provided to measure the flow of reactants. One stirrer is fitted for mixing the reactants in reactor and other is fitted in water bath to keep the uniform temperature throughout in the bath. The temperature of bath can be maintained from ambient to 70 DegreeC with the help of Digital Temperature indicator Cum Controller. A isothermal semi-batch reactor is a semi-closed system with one input stream. It is operated under conditions like Isothermal (Temperature of Reaction Mass remains constant) and perfectly mixed (composition of reaction mixture is uniform throughout). This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition.

Utilities Required:

Technical Details:

Annular UV Photo Reactor

Annular UV Photo Reactor

Annular UV Photo Reactor (With Data Logging Facility)

Description:

An UV source surrounding glass/quartz cylinder is placed centrally in the reactor. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc. The set-up is used to study a photo catalytic reaction using a UV source provided in the form of an UV tube. This set-up can be used to carry out a parameter study under batch/continuous flow condition. A photo catalyst like TiO2 can be used. This set-up can also be used to study the mineralization of liquid effluent industrial streams & for purification of water. The set-up consists of reactor with inside reflecting surface.

Utilities Required:

Technical Details:

Computer Controlled Combined Flow Reactor

Computer Controlled Combined Flow Reactor

Computer Controlled Combined Flow Reactor (With Data Logging Facility)

Description:

This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition in a combined reactor. It consists of two reactors connected in series, one is plug flow reactor and another mixed flow reactor. In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. Concentration of reactants varies along the length of reactor but not in radial direction. In case of a coil turbulence is introduced due to frequent change in direction of flow and presence of secondary flow, so a higher value of reaction rate constant is expected in coil tube type plug flow reactor. The set up consists of two feed tanks through which two reactants are fed to the reactors fitted in series Peristaltic Pumps are provided to measure the individual flow of Chemicals. 1st is a helical coil tube type reactor made up of SS pipe. Reactants enter at lower end coming out of the top of coil from where it is fed to a MFR fitted with stirrer for proper mixing. Samples are collected for analysis.

Utilities Required:

Technical Details:

 

Computer Controlled Packed Bed Reactor

Computer Controlled Packed Bed Reactor

Computer Controlled Packed Bed Reactor (With Data Logging Facility)

Description:

The setup consists of a glass column packed with Rasching Rings and two feed tanks. Reactants are fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic Pumps are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the respective Peristaltic Pump.

Utilities Required:

Technical Details:

Combined Flow Reactor

Combined Flow Reactor

Combined Flow Reactor (Constant Head Feed System)

Description:

This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition in a combined reactor. It consists of two reactors connected in series, one is plug flow reactor and another mixed flow reactor. In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. Concentration of reactants varies along the length of reactor but not in radial direction. In case of a coil turbulence is introduced due to frequent change in direction of flow and presence of secondary flow, so a higher value of reaction rate constant is expected in coil tube type plug flow reactor. The set up consists of two overhead feed tanks through which two reactants are fed to the reactors fitted in series. Rotameters are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. 1st is a helical coil tube type reactor made up of SS pipe. Reactants enter at lower end coming out of the top of coil from where it is fed to a MFR fitted with stirrer for proper mixing.

Utilities Required:

Technical Details:

Packed Bed Reactor

Packed Bed Reactor

Packed Bed Reactor (Constant Head Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and two overhead feed tanks. Reactants are fed to the reactor through liquid distributor, fitted at the bottom of the column. Rotameters are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. Samples can be taken periodically from the top outlet of reactor.

Utilities Required:

Technical Details:

Recycle Bed Reactor

Recycle Bed Reactor

Recycle Bed Reactor (Peristaltic Pump Feed System)

Description:

The feed rate and recycle product ratio can be operated by the respective peristaltic Pumps. Samples can be taken periodically from the top outlet of reactor at another end. An arrangement is made to carry out the reaction at Isothermal conditions by circulating the hot water in the outer jacket of the packed bed reactor. Arrangement is done for proper mixing is done of feed & recycle product before its entry to the reactor. The setup consists of catalyst packed column of Stainless Steel. Reactant from a feed tank is fed to the reactor through liquid distributor, fitted at one end of the column. Some part of product is recycled to the reactor using peristaltic pump. Peristaltic Pumps are provided to measure the individual flow of feed & recycled product.

Utilities Required:

Technical Details:

Packed Bed Reactor

Packed Bed Reactor

Packed Bed Reactor (With Data Logging Facility)

Description:

The setup consists of a glass column packed with Rasching Rings and two feed tanks. Reactants are fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic Pumps are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the respective Peristaltic Pump.

Utilities Required:

Technical Details:

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor (Peristaltic Pump Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and one feed tank. Water is fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic Pump is provided to measure the flow of water. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe, is provided. Samples can be taken periodically from the top outlet of reactor. Axial diffusion and dispersion of fluid in packed beds are important for design and operation of separation equipment and Chemicals reactors. The tracer technique, the most widely used method for the study of axial dispersion. In stimulus response experimentation, we perturb the system using pulse input of tracer and then see how the system reacts or responds to this stimulus. The analysis of the response gives the desired information about the system.

Utilities Required:

Technical Details:

 

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor (Compressed Air Feed System)

Description:

The setup consists of a glass column packed with Rasching Rings and one feed tank. Water is fed to the reactor through liquid distributor, fitted at the bottom of the column. Rotameter is provided to measure the flow of water. The flow rate can be adjusted by operating the needle valve provided on Rotameter. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe, is provided. Samples can be taken periodically from the top outlet of reactor. Pressure Regulator & Pressure Gauge are fitted in the compressed air line.

Axial diffusion and dispersion of fluid in packed beds are important for design and operation of separation equipment and Chemicals reactors. The tracer technique, the most widely used method for the study of axial dispersion. In stimulus response experimentation, we perturb the system using pulse input of tracer and then see how the system reacts or responds to this stimulus. The analysis of the response gives the desired information about the system.

Utilities Required:

Technical Details:

 

Chemical Reactor Service Unit

Chemical Reactor Service Unit

Chemical Reactor Service Unit (With Data Logging Facility)

Description:

This set-up is designed to conduct experiments on different types of chemical reactors on the same service unit. Different types of reactors i.e. Continuously Stirred Tank Reactor (CSTR), Plug Flow Tubular Reactor (Coiled Tube Type) and Batch Reactor (which will be supplied on extra cost) as separate units can be installed on the service unit individually one at a time for conducting experiments. Basically this range of small-scale chemical reactors represents the most common types of chemical reactor found in industry. The reactors use the saponification reaction between ethyl acetate and sodium hydroxide. This provides a well-understood and safe reaction for the students to investigate the different reactor types.

Utilities Required:

Technical Details:

Computer Controlled RTD Studies In Packed Bed Reactor

Computer Controlled RTD Studies In Packed Bed Reactor

Computer Controlled RTD Studies In Packed Bed Reactor (With Data Logging Facility)

Description:

The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc. Axial diffusion and dispersion of fluid in packed beds are important for design and operation of separation equipment and Chemicals reactors. The tracer technique, the most widely used method for the study of axial dispersion. In stimulus response experimentation, we perturb the system using pulse input of tracer and then see how the system reacts or responds to this stimulus. The analysis of the response gives the desired information about the system. The setup consists of a glass column packed with Rasching Rings and one feed tank. Water is fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic Pump is provided to measure the flow of water. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe, is provided. Samples can be taken periodically from the top outlet of reactor.

Utilities Required:

Technical Details:

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor

RTD Studies In Packed Bed Reactor (With Data Logging Facility)

Description:

The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc. Axial diffusion and dispersion of fluid in packed beds are important for design and operation of separation equipment and Chemicals reactors. The tracer technique, the most widely used method for the study of axial dispersion. In stimulus response experimentation, we perturb the system using pulse input of tracer and then see how the system reacts or responds to this stimulus. The analysis of the response gives the desired information about the system. The setup consists of a glass column packed with Rasching Rings and one feed tank. Water is fed to the reactor through liquid distributor, fitted at the bottom of the column. Peristaltic Pump is provided to measure the flow of water. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe, is provided. Samples can be taken periodically from the top outlet of reactor. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc.

Utilities Required:

Technical Details:

Isothermal Batch Reactor

Isothermal Batch Reactor

Isothermal Batch Reactor (With Data Logging Facility)

Description:

A batch reactor is a closed system with no input and output streams. A batch reactor can operate under conditions like Isothermal (Temperature of Reaction Mass remains constant), perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass). This setup is used to study a non-catalytic homogeneous reaction under isothermal condition.The set up consists of a Reactor fitted in a constant temperature water bath. One stirrer is fitted for mixing the reactants in reactor and other is fitted in water bath to keep the uniform temperature throughout in the bath. The temperature of bath can be maintained from ambient to 90 DegreeC with the help of Digital Temperature indicator Cum Controller.

Utilities Required:

Technical Details:

Chemical Reactor Service Unit

Chemical Reactor Service Unit

Chemical Reactor Service Unit (Constant Head Feed System)

Description:

This set-up is designed to conduct experiments on different types of chemical reactors on the same service unit. Different types of reactors i.e. Continuously Stirred Tank Reactor (CSTR), Plug Flow Tubular Reactor (Coiled Tube Type) and Batch Reactor (which will be supplied on extra cost) as separate units can be installed on the service unit individually one at a time for conducting experiments. Basically this range of small-scale chemical reactors represents the most common types of chemical reactor found in industry. The reactors use the saponification reaction between ethyl acetate and sodium hydroxide. This provides a well-understood and safe reaction for the students to investigate the different reactor types..

Utilities Required:

Technical Details:

 

Isothermal Batch Reactor

Isothermal Batch Reactor

Description:

A batch reactor is a closed system with no input and output streams. A batch reactor can operate under conditions like Isothermal (Temperature of Reaction Mass remains constant), perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass). This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition. Samples can be taken out with the help of a sampling pipette.

Utilities Required:

Technical Details:

 

Computer Controlled Isothermal Batch Reactor

Computer Controlled Isothermal Batch Reactor

Computer Controlled Isothermal Batch Reactor (With Data Logging Facility)

Description:

A batch reactor is a closed system with no input and output streams. A batch reactor can operate under conditions like Isothermal (Temperature of Reaction Mass remains constant), Perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass).. The temperature of bath can be maintained from ambient to 90 DegreeC with the help of Digital Temperature indicator Cum Controller. This setup is used to study a non-catalytic homogeneous reaction under isothermal condition. The set up consists of a Reactor fitted in a constant temperature water bath. One stirrer is fitted for mixing the reactants in reactor and other is fitted in water bath to keep the uniform temperature throughout in the bath

Utilities Required:

Technical Details:

Kinetics of Dissolution of Benzoic Acid

Kinetics of Dissolution of Benzoic Acid

Kinetics of Dissolution of Benzoic Acid

Description:

The setup consists of a Reactor in which solid cylinder of Benzoic Acid is placed and water is stirred by means of a variable speed mixer. Baffles are also provided. The Reactor is made of Stainless Steel. A Peltilizer is provided to make the solid cylinder of size 1" diameter and 2" height of Benzoic Acid.

Utilities Required:

Technical Details:

 

Kinetics Of Dissolution Of Benzoic Acid

Kinetics Of Dissolution Of Benzoic Acid

Kinetics Of Dissolution Of Benzoic Acid (With Data Logging Facility)

Description:

This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc. The setup consists of a Reactor in which solid cylinder of Benzoic Acid is placed and water is stirred by means of a variable speed mixer. Baffles are also provided. The Reactor is made of Stainless Steel. A Peltilizer is provided to make the solid cylinder of size 1" diameter and 2" height of Benzoic Acid. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer.

Utilities Required:

Technical Details:

 

Hydrodynamics of Trickle Bed Reactor

Hydrodynamics of Trickle Bed Reactor

Hydrodynamics of Trickle Bed Reactor

Description:

The set-up consists of a glass column. Arrangement is made for changing the glass column conveniently and filling it with any type of packing required. Air from a regulated pressure vessel passes through a sparger and allowed to enter in the column at the top. Liquid is feed from a tank, fitted with a pump and is distributed at the top of a column using a spray nozzle. Set-up is fully accompanied with manometers required. Solenoid valves are provided in the feed line at the top of column for instant release and close. The flow rate can be adjusted by operating the valves provided in respective line.

Utilities Required:

Technical Details:

Combined Flow Reactor

Combined Flow Reactor

Combined Flow Reactor (Compressed Air Feed System)

Description:

This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition in a combined reactor. It consists of two reactors connected in series; one is plug flow reactor and another mixed flow reactor. In an ideal MFR (i.e. an ideal steady state flow reactor) the contents in reactor are well mixed and have uniform composition throughout. Thus the exit stream has the same composition as the fluid within the reactor. The compressed air is used for circulation of feed. 1st is a helical coil tube type reactor made up of SS pipe. Reactants enter at lower end coming out of the top of coil from where it is fed to a MFR fitted with stirrer for proper mixing. Samples are collected for analysis. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.

Utilities Required:

Technical Details:

Recycle Bed Reactor

Recycle Bed Reactor

Recycle Bed Reactor (With Data Logging Facility)

Description:

The setup consists of catalyst packed column of Stainless Steel. Reactant from a fed tank is fed to the reactor through liquid distributor, fitted at one end of the column. Some part of product is recycled to the reactor using peristaltic pump. Peristaltic Pumps are provided to measure the individual flow of feed & recycled product. The feed rate and recycle product ratio can be manipulated by the respective valves of the Peristaltic Pumps. Samples can be taken periodically from the top outlet of reactor at another end. An arrangement is made to carry out the reaction at Isothermal conditions by circulating the hot water in the outer jacket of the packed bed reactor. Special care is taken for proper mixing of feed & recycle product before its entry to the reactor.

Utilities Required:

Technical Details:

 

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor (Compressed Air Feed System)

Description:

An isothermal semi-batch reactor is a semi-closed system with one input stream. It is operated under conditions like Isothermal (Temperature of Reaction Mass remains constant) and perfectly mixed (composition of reaction mixture is uniform throughout). Before starting the reaction the reactor is charged with measured quantity of one reactant. This set-up is used to study a noncatalytic homogeneous reaction under isothermal condition. The set up consists of a Reactor fitted in a constant temperature water bath. From a feed tank another reactant is fed to the reactor. Using a sampling pipette samples can be taken out for analysis after fixed interval. Rotameter is provided to measure the flow of Chemical.  

Utilities Required:

Technical Details:

Liquid Phase Chemical Reactor

Liquid Phase Chemical Reactor

Liquid Phase Chemical Reactor

Description:

Present set-up consists of a reactor vessel fitted with variable speed agitator and detachable baffles. This unit is designed to study chemical kinetics. Reactants are fed to the reactor, using pump and flow is regulated and monitored by individual Rotameter. An adjustable overflow device is provided in the reactor to conduct the experiment on different reactor volume. A Stainless Steel Coil is immersed in the reactor through which the hot water supply is circulated. Temperature of the hot water is controlled by means of Temperature Controller and it enables the students to enhance the experimentation capabilities.

Utilities Required:

Technical Details:

 

Combined Flow Reactor

Combined Flow Reactor

Combined Flow Reactor (Peristaltic Pump Feed System)

Description:

This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition in a combined reactor. It consists of two reactors connected in series; one is plug flow reactor and another mixed flow reactor. In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. The set up consists of two feed tanks through which two reactants are fed to the reactors fitted in series Peristaltic Pumps are provided to measure the individual flow of Chemicals. 1st is a helical coil tube type reactor made up of SS pipe. Reactants enter at lower end coming out of the top of coil from where it is fed to a MFR fitted with stirrer for proper mixing. Samples are collected for analysis. Concentration of reactants varies along the length of reactor but not in radial direction. In case of a coil turbulence is introduced due to frequent change in direction of flow and presence of secondary flow, so a higher value of reaction rate constant is expected in coil tube type plug flow reactor.

Utilities Required:

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Computer Controlled Recycle Bed Reactor

Computer Controlled Recycle Bed Reactor

Computer Controlled Recycle Bed Reactor (With Data Logging Facility)

Description:

The setup consists of catalyst packed column of Stainless Steel. Reactant from a fed tank is fed to the reactor through liquid distributor, fitted at one end of the column. Some part of product is recycled to the reactor using peristaltic pump. Peristaltic Pumps are provided to measure the individual flow of feed & recycled product. The feed rate and recycle product ratio can be manipulated by the Peristaltic Pumps. Samples can be taken periodically from the top outlet of reactor at another end. An arrangement is made to carry out the reaction at Isothermal conditions by circulating the hot water in the outer jacket of the packed bed reactor. Special care is taken for proper mixing of feed & recycle product before its entry to the reactor. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. This software package provides a comprehensive educational software environment within which the investigations can be performed. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The real time data acquisition can be done by interfacing the set-up with computer using software. Software allows the user to have control on data logging, printing the stored data, preparing spread sheets in Excel etc..

Utilities Required:

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Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor

Isothermal Semi Batch Reactor 

Description:

one input stream. It is operated under conditions like Isothermal (Temperature of Reaction Mass remains constant) and perfectly mixed (composition of reaction mixture is uniform throughout). This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition. The set up consists of a Reactor fitted in a constant temperature water bath. Before starting the reaction the reactor is charged with measured quantity of one reactant. From a feed tank another reactant is fed to the reactor. Peristaltic Pump is provided to measure the flow of Chemical. One stirrer is fitted for mixing the reactants in reactor and other is fitted in water bath to keep the uniform temperature throughout in the bath. The temperature of bath can be maintained from ambient to 70 DegreeC with the help of Digital Temperature indicator Cum Controller..

Utilities Required:

Technical Details:

Adiabatic Batch Reactor

Adiabatic Batch Reactor

Adiabatic Batch Reactor (With Data Logging Facility)

Description:

An adiabatic batch reactor is a closed system with no input and output streams. This reactor is operated under conditions like adiabatic (Temperature of Reaction Mass keep on changing), Perfectly mixed (composition of reaction mixture is uniform throughout), and constant volume (volume of the reaction mixture within the reactor remains constant, there is no appreciable change in the density of reaction mass). This set-up is used to study a catalytic homogeneous reaction under adiabatic condition..

Utilities Required:

Technical Details:

 

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