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.
SLEDGE HAMMER WITH HANDLE
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Microscopic examination of clinical specimens in hematology, microbiology, cytology, and pathology laboratories in referral or teaching hospitals.
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SLEDGE HAMMER WITH FIBER GLASS HANDLE
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Refrigeration unit to chill water:
Power consumption: 370 W.
Refrigerating capacity: 40W at -10/32°C.
Expansion valve.
Cooling compressor.
Evaporator and condensator.
Coolant accumulation tank.
Tank of division of the cooling liquid.
Cooling filter.
Used for microscopic examination of clinical specimens in haematology, microbiology, cytology, and pathology laboratories.
These specimens include blood smears, urine wet preparation, gram stains, cultures, tissue sections, etc.
SIZE(GMS) HANDLE LENGTH(INCHES) NET. WT. / CTN.(KGS) GR. WT. / CTN.(KGS)
1 10 18.2 19.7
1.5 10 20.475 21.975
2 12 18.2 19.7
3 12 20.475 21.975
4 12 18.2 19.7
6 16 21.84 23.34
8 16 21.84 23.34
10 16 18.2 19.7
12 16 21.84 23.34
14 16 19.11 20.61
16 16 21.84 23.34
18 16 16.38 17.88
20 16 18.2 19.7
These specimens include blood smears, urine wet preparation, gram stains, cultures, tissue sections, etc. Used for microscopic examination of clinical specimens in haematology, microbiology, cytology, and pathology laboratories.
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SIZE(GMS) HANDLE LENGTH(INCHES) NET. WT. / CTN.(KGS) GR. WT. / CTN.(KGS)
1 10 18.2 19.7
1.5 10 20.475 21.975
2 12 18.2 19.7
3 12 20.475 21.975
4 12 18.2 19.7
6 16 21.84 23.34
8 16 21.84 23.34
10 16 18.2 19.7
12 16 21.84 23.34
14 16 19.11 20.61
16 16 21.84 23.34
18 16 16.38 17.88
20 16 18.2 19.7
Microscopic examination of clinical specimens in hematology, microbiology, cytology and pathology laboratories in referral or teaching hospitals.
Microscope frame with 360 degree revolving 30 degree inclined binocular tube.
Third ocular allows for integration of camera via C-mount, with 0.5x reduction.
Range of magnification 40 to 1000x.
5-positions nosepiece.
Objectives, full plan-achromatic 5x/0.12.
Condenser: Abbe with iris diaphragm aperture, 1.25 NA.
Eyepieces: 16x-eyepieces optionally.
Area of stage: 210 mm (w) x 145 mm (d); travel range: 75 mm (w) x 30 mm (d)
Single slide holder.
Rack and pinion steel gears.
Coarse and fine focusing: fine focus: 0.4mm/rotation.
Retractable eye guards.
Illumination: average life-time of LED: more than 20.000 hours.
Sensor 1/ 2.5 CMOS.
Exposure time, automatic / manual 2s to 0.01ms.
Video imaging up to 20 frames per second.
Observation by Bright field and with blue filter.
Brightness control 0 to 100 % (linear).
Camera with software: Digital still image and video capturing, processing and storage/retrieve software.
Operation conditions: 10°C to 40°C, air humidity max. 75% at 35°C.
Resolution still image: 2560 (H) x 1920 (V) 5 Megapixels.
Provided with USB 2.0 power and data connection to external computer.
Windows XP compatibility: Windows 10 embedded x64 and older Windows x64 systems.
SIZE(GMS) HANDLE LENGTH(INCHES) NET. WT. / CTN.(KGS) GR. WT. / CTN.(KGS)
1 10 18.2 19.7
1.5 10 20.475 21.975
2 12 18.2 19.7
3 12 20.475 21.975
4 12 18.2 19.7
6 16 21.84 23.34
8 16 21.84 23.34
10 16 18.2 19.7
12 16 21.84 23.34
14 16 19.11 20.61
16 16 21.84 23.34
18 16 16.38 17.88
20 16 18.2 19.7
The equipment is constructed with a stainless steel frame, vessel and components. All devices, components and instrumentation are included. The unit is floor mounted on castors to allow for easy movement around the laboratory.
Drain valve
Capacity of 80 litres.
Cooling plant at teaching and industrial level, with modular design, and computer controlled.
Plant with ice store, wet cooling tower and dry cooler.
Main metallic elements in stainless steel.
Diagram in the front panel.
The different units (modules) connected with hoses.
Anodized aluminium structures and panels in painted steel.
Wet cooling tower.
Dry cooler.
Using valves different operating modes can be configured.
Refrigeration circuit (condenser, evaporator, compressor) and pumps.
Manometers.
Temperature sensors.
Flow sensors.
Ice tank.
Liquid tank.
Wattmeter.
Refrigerant R134a.
Connecting hoses.
High pressure control.
Pressure sensors.
Adjustment elements.
SIZE(GMS) HANDLE LENGTH(INCHES) NET. WT. / CTN.(KGS) GR. WT. / CTN.(KGS)
1 10 18.2 19.7
1.5 10 20.475 21.975
2 12 18.2 19.7
3 12 20.475 21.975
4 12 18.2 19.7
6 16 21.84 23.34
8 16 21.84 23.34
10 16 18.2 19.7
12 16 21.84 23.34
14 16 19.11 20.61
16 16 21.84 23.34
18 16 16.38 17.88
20 16 18.2 19.7
The is designed to connect to the to expand the experimental capability.
The has been designed and manufactured to incorporate all current safety standards.
A Computer Controlled Thermodynamic Cycle of a Screw Compressor training plant for studying the energy transfer in a compressed air system.
It includes industrial sensors and transducers.
The is controlled by a PC and software.
Experiments:
Determining the polytropic index
Calculating the effective average pressure of the compressor
Analysing the pressure / volume diagram of the first and second stages of the compressor by experiment
Checking the operation of the safety devices:
For detailed study of the air characteristics it is necessary to connect the ACV85 to the ACV90 Compressed Air Dehumidification Training Plant
Using a T-s diagram for air to determine the characteristics of the thermal cycles by experiment.
Experiments:
System dynamics in process systems
Design and operation of analogue proportional, proportional + integral, or proportional + integral + differential control controllers
Steady-state errors and closed-loop transient responses
Ziegler/Nichols controllers tuning rules
Calibration of transducer and actuator circuits
Multivariable control
Step-change tuning
Flow control
State feedback
The flexible design of the equipment allows the user to develop many other analysis and control exercises to suit their needs. It is good for extended or advanced control experiments, and is ideal for student project work.
The heat exchanger is fully instrumented using the Heat Exchanger Service Unit with thermocouples on the inlet and outlet of both the hot and cold streams. An example of an industrial Coiled Concentric Tube Heat Exchanger with turbulence enhancing tubes. The heat exchanger is deliberately not insulated so that heat losses in all of the configurations can be investigated. The heat exchanger can be arranged so that either hot or cold streams are in the inner tube. With either configuration both co-current and counter-current flow can be established.
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Printing: one color Pantone cool grey 5 recto/verso
Lines: 8 mm lines without left, right and bottom margins and with a top margin of 18 mm.
Printing: One color Cyan blue and water based glossy varnish recto only
Finishing: Saddle stitch (stainless steel) along the 297 mm and trim to size
Cover: 75% recovered paper fibres (post and pre-consumer waste) 140 GSM one side coated
Size: closed A4 size (210 mm wide x 297 mm long), open A3 (420 mm x 297mm)
Paper: 75% recovered paper fibers (post and pre-consumer waste) non coated 70 GSM.
Pages: 96 pages (48 sheets).
