Advanced Technocracy Inc. Ambala, Haryana

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Chemical Reaction Engineering Lab

Cascade Continuously Stirred Tank Reactor

Cascade Continuously Stirred Tank Reactor

Cascade Continuously Stirred Tank Reactor (Constant Head Feed System)

Description:

In an ideal CSTR (i.e. an ideal steady state flow reactor) the contents in reactor This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The setup consists of three CSTR arranged in series and two overhead feed tanks through which two reactants are fed to the reactor. Over head tanks are used for circulation of feed. Reactants from feed tanks enter in the first CSTR and are passed to second CSTR and so on. For analysis samples are collected from different ports provided. 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.

Experimentation:

Utilities Required:

 

 

 

 

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor

R.T.D. Studies In Continuous Stirred Tank Reactor (Peristaltic Pump Feed System)

Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The flow rate can be varied by changing the speed of peristaltic pump. The continuously stirred tank reactor made of Stainless Steel is provided for understanding the R.T.D. characteristics.  The setup consists of one feed tank through which water is fed to the reactor.

Experimentation:

Utilities Required:

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor

Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. The setup consists of one feed tank through which water is fed to the reactor. To predict the exact behaviour of a vessel as a Chemicals reactor, RTD or stimulus response technique is used.  Steel is provided for understanding the R.T.D. characteristics. Pressure Regulator & Pressure Gauge are fitted in the compressed air line. The flow rate can be adjusted by operating the needle valve and measured by Rotameter. The compressed air is used for circulation of feed. The continuously stirred tank reactor made of Stainless

Experimentation:

Utilities Required:

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor (Coiled Tube Type) (Compressed Air Feed System)

Description:

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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. It is a helical coil tube type reactor. 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 are collected for analysis from the outlet of reactor. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line. 

Experimentation:

Utilities Required:

Technical Data:

 

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor (Coiled Tube Type) (Constant Head Feed System)

Description:

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. The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. The set up consists of two overhead feed tanks through which two reactants are fed to the reactor. It is a helical coil tube type reactor. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis. 

Experimentation:

Utilities Required:

Technical Data:

 

 

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor (Straight Tube Type)(Peristaltic Pump Feed System)

Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. The setup consists of one feed tank through which water is fed to the reactor. Peristaltic pump is provided to circulate the water. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used.  A straight tube type reactor kept horizontally and inclined upward at outlet from where samples are collected for analysis. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided..

Experimentation:

Utilities Required:

Technical Details:

 

 

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor (Coiled Tube Type) (Peristaltic Pump Feed System)

Description:

In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. It is a helical coil tube type reactor kept in a constant temperature water bath to conduct the experiment at various temperatures. 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. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis.

Experimentation:

Utilities Required:

Technical Data:

 

 

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor (Straight Tube Type) (With Data Logging Facility)

 Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. A straight tube type reactor kept horizontally and inclined upward at outlet from where samples are collected for analysis. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided. To predict the exact behaviour of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The set up consists of One feed tank through which water is fed to the reactor. Peristaltic pump is provided to circulate the feed.

Experimentation:

Utilities Required:

Technical Details:

 

Computer Controlled Plug Flow Tubular Reactor

Computer Controlled Plug Flow Tubular Reactor

Computer Controlled Plug Flow Tubular Reactor (Coiled Tube Type) (With Data Logging Facility)

Description:

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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. Peristaltic pumps are provided to measure the individual flow of Chemicals. The flow rate can be varied by changing the speed of peristaltic pump. Samples are collected for analysis from the outlet of reactor. 

Experimentation:

Utilities Required:

Technical Data:

 

 

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor (Coiled Tube Type) (Compressed Air Feed System)

Description:

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. This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition. 

Experimentation:

Utilities Required:

Technical Data:

 

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor

Isothermal Plug Flow Tubular Reactor (Coiled Tube Type) (With Data Logging Facility)

Description:

In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. It is a helical coil tube type reactor kept in a constant temperature water bath to conduct the experiment at various temperatures. Reactants enter at lower end coming out of the top of coil from where 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. This setup is used to study a non-catalytic homogeneous reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. Peristaltic Pumps are provided to measure the individual flow of Chemicals.

Experimentation:

Utilities Required:

Technical Data:

 

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor Constant Head Feed System

Description:

RTD Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The flow rate can be adjusted by operating the needle valve and measured by Rotameter. The continuously stirred tank reactor made of Stainless Steel is provided for understanding the R.T.D. characteristics. The setup consists of overhead feed tank through which water is fed to the reactor.

Experimentation:

Utilities Required:

 

 

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor

RTD Studies In Plug Flow Tubular Reactor (Straight Tube Type) (Compressed Air Feed System)

Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one feed tank through which water is fed to the reactor. The flow rate can be adjusted by operating the needle valve and measured by Rotameter. The compressed air is used for circulation of feed. A straight tube type reactor kept horizontally and inclined upward at outlet from where samples are collected for analysis. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided. Pressure Regulator & Pressure Gauge are fitted in the compressed air line.

Experimentation:

Utilities Required:

 

 

Technical Details:

 

 

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor (Coiled Tube Type) (With Data Logging Facility)

Description:

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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. Peristaltic Pumps are provided to measure the individual flow of Chemicals. The flow rate can be adjusted by operating the needle valves provided on respective Peristaltic Pump. Samples are collected for analysis from the outlet of reactor. 

Experimentation:

Utilities Required:

Technical Data:

 

 

Cascade Continuously Stirred Tank Reactor

Cascade Continuously Stirred Tank Reactor

Cascade Continuously Stirred Tank Reactor

Description:

The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. The compressed air is used for circulation of feed. Reactants from feed tanks enter in the first CSTR and are passed to second CSTR and so on. For analysis samples are collected from different ports provided. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.  In an ideal CSTR (i.e. an ideal steady state flow reactor) the contents in reactor This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The setup consists of three CSTR arranged in series and two feed tanks through which two reactants are fed to the reactor. Rotameters are provided to measure the individual flow of Chemicals.

Utilities Required:

Technical Details:

 


Additional Information:

Plug Flow Tubular Reactor Coiled Tube Type

Plug Flow Tubular Reactor Coiled Tube Type

Plug Flow Tubular Reactor Coiled Tube Type

Description:

The set up consists of two feed tanks through which two reactants are fed to the reactor. It is a helical coil tube type reactor. 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 are collected for analysis from the outlet of reactor. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line. 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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition.

Utilities Required:

Technical Details:

 


Additional Information:

R.T.D. Studies In Continuous Stirred Tank Reactor

R.T.D. Studies In Continuous Stirred Tank Reactor

R.T.D. Studies In Continuous Stirred Tank Reactor

Description:

The setup consists of one feed tank through which water is fed to the reactor. The flow rate can be adjusted by operating the needle valve and measured by Rotameter. The compressed air is used for circulation of feed. The continuously stirred tank reactor made of Stainless Steel is provided for understanding the R.T.D. characteristics. Pressure Regulator & Pressure Gauge are fitted in the compressed air line. Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behaviour of a vessel as a Chemicals reactor, RTD or stimulus response technique is used.

Utilities Required:

Technical Details:

 


Additional Information:

Isothermal Continuously Stirred Tank Reactor

Isothermal Continuously Stirred Tank Reactor

Isothermal Continuously Stirred Tank Reactor

Description:

The set up consists of two feed tanks through which two reactants are fed to the reactor. 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. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.

In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition.

Utilities Required:

Technical Details:

 


Additional Information:

RTD Studies In Continuously Stirred Tank Reactor

RTD Studies In Continuously Stirred Tank Reactor

 RTD Studies In Continuously Stirred Tank Reactor With Data Logging Facility

Description:

RTD Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one feed tank through which water is fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. The educational software and data-logging package has been developed for unit.  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.

Experimentation:

Utilities Required:

Computer Controlled RTD Studies In Continuously Stirred Tank Reactor

Computer Controlled RTD Studies In Continuously Stirred Tank Reactor

Computer Controlled RTD Studies In Continuously Stirred Tank Reactor (With Data Logging Facility)

Description:

Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The continuously stirred tank reactor made of Stainless Steel is provided for understanding the R.T.D. characteristics. This software package provides a comprehensive educational software environment within which the investigations can be performed. The setup consists of one feed tank through which water is fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. This software is capable to tabulate the sample readings according to the requirement of experiment under study and results obtained can be compared. The present set-up has a facility to interface the system with computer which enables to log the experimental data using computer. The educational software and data-logging package has been developed for unit.  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.

Experimentation:

Utilities Required:

 

Continuously Stirred Tank Reactor

Continuously Stirred Tank Reactor

Continuously Stirred Tank Reactor

Description:

The set up consists of two feed tanks through which two reactants are fed to the reactor. 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. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line. In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition.

Utilities Required:

Technical Details:

 

 

 


Additional Information:

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor

Plug Flow Tubular Reactor Straight Tube Type Compressed Air Feed System

Description:

In an ideal Plug Flow Reactor (PFTR) there is no mixing in the direction of flow and complete mixing perpendicular to direction of flow. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. Concentration of reactants varies along the length of reactor but not in radial direction. The set up consists of two feed tanks through which two reactants are fed to the reactor. The compressed air is used for circulation of feed. A straight tube type reactor kept horizontally and inclined upward at outlet from where samples are collected for analysis. 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. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.

Experimentation:

Utilities Required:

 

 

Plug Flow Tubular Reactor Straight Tube Type

Plug Flow Tubular Reactor Straight Tube Type

Plug Flow Tubular Reactor Straight Tube Type

Description:

The set up consists of two feed tanks through which two reactants are fed to the reactor. 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. A straight tube type reactor kept horizontally and inclined upward at outlet from where samples are collected for analysis. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.  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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition.

Utilities Required:

Technical Details:

 


    Additional Information:

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor (Coiled Tube Type) (Peristaltic Pump Feed System)

    Description:

    Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. It is a straight tube type plug flow reactor made up of glass. Samples are collected for analysis from the outlet of reactor. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one feed tank through which water is fed to the reactor. The flow rate can be changed by varying the speed of peristaltic pump. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided.

    Experimentation:

    Utilities Required:

    Technical Details:

    Plug Flow Tubular Reactor

    Plug Flow Tubular Reactor

    Plug Flow Tubular Reactor (Coiled Tube Type) (Peristaltic Pump System)

    Description:

    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. This set-up is used to study a non-catalytic homogeneous reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. The flow rate can be adjusted by operating the valves provided on respective Peristaltic pumps. It is a helical coil tube type reactor. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis. 

    Experimentation:

    Utilities Required:

    Technical Data:

     

     

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor (Coiled Tube Type) (With Data Logging Facility)

    Description:

    Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. The flow rate can be adjusted by operating the valve and measured by Peristaltic Pump. It is a helical coil tube type plug flow reactor made up of Stainless steel pipe. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided. To predict the exact behaviour of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one feed tank through which water is fed to the reactor.

    Experimentation:

    Utilities Required:

    Technical Details:

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor (Coiled Tube Type) (Constant Head Feed System)

    Description:

    Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one overhead feed tank through which water is fed to the reactor. The overhead tank system is used for circulation of feed. It is a helical coil tube type plug flow reactor made up of Stainless steel pipe. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided.

    Experimentation:

    Utilities Required:

    Technical Details:

    Computer Controlled RTD Studies In Plug Flow Tubular

    Computer Controlled RTD Studies In Plug Flow Tubular

    Computer Controlled RTD Studies In Plug Flow Tubular Reactor (Coiled Tube Type)(With Data Logging Facility)

    Description:

    Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. The flow rate can be changed by varying the speed of peristaltic pump. It is a helical tube type reactor made of stainless steel. For understanding the R.T.D. characteristics, a special arrangement to inject tracer into the lower end of reactor, using a syringe is provided. To predict the exact behavior of a vessel as a Chemicals reactor, RTD or stimulus response technique is used. The setup consists of one feed tank through which water is fed to the reactor.

    Experimentation:

    Utilities Required:

    Technical Details:

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor

    RTD Studies In Plug Flow Tubular Reactor (Coiled Tube Type) (Compressed Air Feed System)

    Description:

    Real reactors do not satisfy the idealized flow patterns, back mix flow or plug flow deviation from ideality can be due to channeling of fluid through the vessel, recycling of fluid within the vessel or due to the presence of stagnant region or pockets of fluid in the vessel. To predict the exact behaviour of a vessel as a Chemicals reactor, RTD or stimulus response technique is used.

    Experimentation:

    Utilities Required:

    Technical Details:

     

    Isothermal Plug Flow Tubular Reactor

    Isothermal Plug Flow Tubular Reactor

    Isothermal Plug Flow Tubular Reactor (Coiled Tube Type) (Constant Head Feed System)

    Description:

    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. This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition. The set up consists of two overhead feed tanks through which two reactants are fed to the reactor. The flow rate can be adjusted by operating the needle valves provided on respective Rotameter. It is a helical coil tube type reactor kept in a constant temperature water bath to conduct the experiment at various temperatures. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis.

    Experimentation:

    Utilities Required:

    Technical Data:

     

    Computer Controlled Isothermal Plug Flow Tubular Reactor

    Computer Controlled Isothermal Plug Flow Tubular Reactor

    Computer Controlled Isothermal Plug Flow Tubular Reactor (Coiled Tube Type)(With Data Logging Facility)

    Description:

    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. This set-up is used to study a non-catalytic homogeneous reaction under isothermal condition.  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 reactor. Peristaltic pumps are provided to measure the individual flow of Chemicals. The flow rate can be varied by changing the speed of peristaltic pump. Reactants enter at lower end coming out of the top of coil from where samples are collected for analysis.  It is a helical coil tube type reactor kept in a constant temperature water bath to conduct the experiment at various temperatures.

    Experimentation:

    Utilities Required:

    Technical Data:

     

     

    Computer Controlled Isothermal Continuously Stirred Tank Reactor

    Computer Controlled Isothermal Continuously Stirred Tank Reactor

    Computer Controlled Isothermal Continuously Stirred Tank Reactor With Data Logging Facility:

    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. The CSTR is fitted with stirrer for proper mixing. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures.

    Experimentation:

    Saponification Reaction study in Isothermal CSTR.

    To determine the Reaction Rate Constant and effect of temperature on it.

    Utilities Required:

    Electricity Supply: Single Phase, 220 V AC, 50 Hz, 5-15 Amp combined socket with earth connection.

    Earth voltage should be less than 5 volts.

    Water Supply.

    Floor Drain.

    Instruments, Laboratory Glassware and Chemicals required for analysis as per the system adopted.

    Computer System: i-3 processor with DVD Drive, Windows 7/8, MS-Office pre-loaded. One USB slot required in PC for Data Acquisition Card.

    Isothermal CSTR

    Isothermal CSTR

    Isothermal CSTR With Data Logging Facility:
    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. Peristaltic Pumps are provided to measure the individual flow of Chemicals. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures.

    Experimentation:

    Utilities Required:

    Isothermal Continuously Stirred Tank Reactor

    Isothermal Continuously Stirred Tank Reactor

    Isothermal Continuously Stirred Tank Reactor Constant Head Feed System:
    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition. The set up consists of two overhead feed tanks through which two reactants are fed to the reactor. 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 CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures.

    Experimentation:

    Utilities Required:

     

     

    Cascade Continuously Stirred Tank Reactor

    Cascade Continuously Stirred Tank Reactor

    Cascade Continuously Stirred Tank Reactor Compressed Air Feed System:
    Description:

    In an ideal CSTR (i.e. an ideal steady state flow reactor) the contents in reactor This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The setup consists of three CSTR arranged in series and two feed tanks through which two reactants are fed to the reactor. 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. Reactants from feed tanks enter in the first CSTR and are passed to second CSTR and so on. For analysis samples are collected from different ports provided. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.

    Experimentation:

    Utilities Required:

     

    Cascade Continuously Stirred Tank Reactor

    Cascade Continuously Stirred Tank Reactor

    Cascade Continuously Stirred Tank Reactor Peristaltic Pump Feed System:
    Description:

    In an ideal CSTR (i.e. an ideal steady state flow reactor) the contents in reactor This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The setup consists of three CSTR arranged in series and two feed tanks through which two reactants are fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. Reactants from feed tanks enter in the first CSTR and are passed to second CSTR and so on. For analysis samples are collected from different ports provided.

    Experimentation:

    Utilities Required:

     

     

    Computer Controlled Cascade Continuously Stirred Tank Reactor

    Computer Controlled Cascade Continuously Stirred Tank Reactor

    Computer Controlled Cascade Continuously Stirred Tank Reactor (With Data Logging Facility)
    Description:

    In an ideal CSTR (i.e. an ideal steady state flow reactor) the contents in reactor This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The setup consists of three CSTR arranged in series and two feed tanks through which two reactants are fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. Reactants from feed tanks enter in the first CSTR and are passed to second CSTR and so on.

    Experimentation:

    Utilities Required:

    Computer Controlled Continuously Stirred Tank Reactor

    Computer Controlled Continuously Stirred Tank Reactor

    Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of Assembly & Maintenance Exercise Refrigeration

     

    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. Peristaltic pumps are provided to measure the individual flow of Chemicals. The flow rate can be varied by changing the speed of peristaltic pump. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are Collected For Analysis.

    Experimentation:

    Utilities Required:

     

    Isothermal Continuously Stirred Tank Reactor

    Isothermal Continuously Stirred Tank Reactor

    Advanced Technocracy Inc. is Manufacturer, Exporter & Supplier of School Science Lab Equipments

    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. 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. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line

    Experimentation:

    Utilities Required:

     

     

    Isothermal Continuously Stirred Tank Reactor

    Isothermal Continuously Stirred Tank Reactor

    Isothermal Continuously Stirred Tank Reactor Peristaltic Pump Feed System:

    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under isothermal condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. The flow rate can be varied by changing the speed of peristaltic pump. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Constant temperature water bath arrangement is provided to conduct the experiment at various temperatures.

    Experimentation:

    Utilities Required:

     

     

     

    Continuously Stirred Tank Reactor

    Continuously Stirred Tank Reactor

    Description:

    In an ideal CSTR (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. This type of reactor is known as mixed flow reactor. This set-up is used to study a non-catalytic homogeneous second order liquid phase reaction under ambient condition. The set up consists of two feed tanks through which two reactants are fed to the reactor. 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. The CSTR is fitted with stirrer for proper mixing. From top outlet of it samples are collected for analysis. Pressure Regulator, Pressure Gauge and Safety Valve are fitted in the compressed air line.

    Experimentation:

    Utilities Required:

     

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