|Stock Status||Stock In|
|Minimum Order Quantity||1|
|Description Present set-up is computer controlled with data logging facility. When the equipment is interfaced to computer, the end user has an access of every input and output of the setup and can log data of experiments. In most industrial processes including reactors, heat is to be added or extracted to control the process. The addition and removal of heat is done by passing steam or water in a jacket fitted to the outside of the vessel or passing steam or cold w...|
Present set-up is computer controlled with data logging facility. When the equipment is interfaced to computer, the end user has an access of every input and output of the setup and can log data of experiments. In most industrial processes including reactors, heat is to be added or extracted to control the process. The addition and removal of heat is done by passing steam or water in a jacket fitted to the outside of the vessel or passing steam or cold water in helical coil inside the vessel. For effective heat transfer and even distribution of heat, the liquid inside is continuously agitated. The present set-up offers us a comparative study of Jacket & Helical coil, which can be operated simultaneously. It is a stainless steel jacketed vessel with helical coil of copper is fitted inside. A variable speed stirrer is fitted in the vessel. Variation in temperature of inside water is measured and is noted. Jacketed vessel is fitted with condensatecollection measuring system. Flow rate of water can be controlled and measured using valve and flowmeter. Water to be supplied by laboratory overhead tank atconstant head condition by end user. Temperature ofinlet and outlet of both hot & cold fluids are measured by temperature sensors. It has an interfacing unit designed by Engineers along with Labview software. This educational software allows/enables user to log the real time experimental data and tabulate the experimental/sample reading according to the requirement of experiment. User have a control on data logging, printing the stored data and preparing spread sheets in Excel. Flexible graph plotting facility is also available in the software.
Steam to Water
|Vessel||Material SS fitted with 4 baffles, Dia. 250, Depth 350 mm (Approx.)|
|Jacket||Width 25 mm. Insulated with ceramic wool and cladded with aluminum foil.|
|Helical Coil||Material Copper, OD 16mm, ID 13mm.|
|Agitator||Stainless steel Impeller, fitted on a Stainless Steel Shaft, coupled to a variable speed motor and Drive. Speed of the agitator is controlled via computer signal.|
|Condensate Measurement||By Level Sensor.|
|Water Flow Measurement||By Flow Sensor.|
|Material stainless steel fitted with level indicator, pressure Gauge, safety valve, drain and insulated with ceramic wool & cladding with Aluminium foil.|
|Heaters||Nichrome wire heater (2 Nos.). Special arrangement to control heat input.|
|Control panel comprising of||
Temperature measurement : Temperature Transmitter - 5 Nos. with 4-20 mA Output.
|Non Contact type.||With standard make On/Off switch, Mains Indicator etc.|
•An ENGLISH instruction manual consisting of experimental procedures, block diagram etc. will be provided along with the Apparatus.
•The whole set-up is well designed and arranged on a rigid structure painted with industrial PU Paint.
•To determine the overall heat transfer co-efficient for various degree of agitation.
•To make a comparative study of Heat Transfer through Jacket & Coil in an agitated vessel.
•Electricity Supply: 1 Phase, 220 V AC, 50 Hz, 32 Amp MCB with earth connection (Earth voltage should be less than 5 volts)
•Water supply: 5 LPM at constant head condition.
•Floor area: 1.5 m x 1.5 m.
•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.