WELCOME TO Scientico
Pioneering Excellence in Laboratory & Engineering Equipment Since 1993
With over three decades of expertise, SCIENTICO stands as a leading manufacturer and exporter of high-performance lab instruments and educational training systems. Our in-house R&D, ISO and CE-certified quality standards, and global customer network make us the preferred choice for technical institutions and industries seeking unmatched accuracy and durability.
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products we manufacture
At SCIENTICO, we design and manufacture a comprehensive range of laboratory, engineering, and scientific equipment built to global quality standards. Our portfolio includes precision instruments for Mechanical, Civil, Electrical, Chemical, and Pharmaceutical laboratories — all crafted with in-house R&D, CE-certified components, and ISO-compliant processes. From educational training systems to high-performance research instruments, our products are engineered for accuracy, reliability, and long-term performance in universities, hospitals, research centers, and industrial labs worldwide
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our popular products
The Axial Fan Compressor Demonstration Unit FluidoSurge-X 196 is designed for studying axial fan and compressor characteristics. It enables measurement of flow rate, differential pressure, speed, and temperature under controlled conditions. The setup features variable speed control, transparent flow sections, and integrated sensors. It is suitable for fluid mechanics and turbomachinery laboratory teaching.
The Series and Parallel Pump Apparatus FluidoSurge-X 192 is designed for studying centrifugal pump performance under different configurations. It supports single, series, and parallel pump operation with variable speed control. The setup enables analysis of head, discharge, and efficiency characteristics. It is suitable for fluid mechanics and hydraulic machinery laboratory teaching.
The Centrifugal Pump FluidoSurge-X 188 is designed for experimental study of centrifugal pump performance. It enables measurement of flow rate, pressure, and speed under variable operating conditions. The setup supports characteristic curve plotting and efficiency evaluation. It is suitable for fluid mechanics and hydraulic machinery laboratory teaching.
The Cavitations Apparatus FluidoSurge-X 184 is designed to demonstrate cavitation in flowing liquids using a transparent Venturi section. It allows visualization of vapor bubble formation and collapse under controlled pressure conditions. The setup includes pressure and vacuum gauges for detailed analysis. It is suitable for fluid mechanics laboratory teaching and experimental study of cavitation phenomena.
The Venturi Meter Apparatus FluidoSurge-X 176 is designed for measuring flow rate in pipes using the Venturi principle. It features a transparent acrylic Venturi tube with multiple pressure tapping points and a manometer bank. The setup enables study of pressure drop, pressure recovery, and discharge coefficient. It is suitable for fluid mechanics laboratory teaching and experimental analysis.
The Advance Dead Weight Apparatus FluidoSurge-X 173 is designed for high accuracy pressure calibration in laboratories. It uses a precision piston manometer with calibrated dead weights to generate known pressures. The setup supports calibration of Bourdon tube pressure gauges and systematic error analysis. It is suitable for advanced fluid mechanics and instrumentation laboratory experiments.
The Dead Weight Apparatus FluidoSurge-X 172 is designed for calibration of pressure gauges in laboratory environments. It generates accurate pressure using a precision piston and calibrated dead weights. The setup enables comparison between applied pressure and Bourdon gauge readings. It is suitable for fluid mechanics and instrumentation laboratory experiments.
The Pipe Friction Apparatus FluidoSurge-X 168 is designed for studying friction losses in pipe flow. It supports experiments under laminar and turbulent conditions using controlled water supply. The setup includes an elevated head tank, test pipe, and manometers for head loss measurement. It is suitable for fluid mechanics laboratory teaching and experimental analysis.
The Hydraulic Ram Pump Apparatus FluidoSurge-X 164 is designed to demonstrate water hammer and hydraulic ram pumping principles. It operates without external power and uses pressure surges to lift water to a higher level. The setup features transparent tanks, adjustable valves, and a visible air vessel for clear observation. It is suitable for fluid mechanics and hydraulic machinery laboratory experiments.
The Francis Turbine Apparatus FluidoSurge-X 160 is designed for studying reaction turbine principles in fluid mechanics laboratories. It enables measurement of torque, power output, and efficiency of a Francis turbine. The setup features adjustable guide vanes, a band brake loading system, and transparent casing.It operates with a hydraulic bench or laboratory water supply and supports characteristic curve analysis.
The Pelton Turbine Apparatus FluidoSurge-X 156 is designed for studying impulse turbine performance in fluid mechanics laboratories. It features a transparent housing with adjustable spear valve and miniature Pelton wheel. The setup enables measurement of speed, torque, power, and efficiency under constant head conditions. It operates with a hydraulic bench or laboratory water supply and supports comprehensive turbine experiments.
The Energy Losses in Pipe Apparatus FluidoSurge-X 148 is designed for studying friction and local losses in pipe flow. It enables measurement of pressure losses for laminar and turbulent conditions. The setup includes multiple pipe fittings and a manometer bank for detailed analysis. It operates with a hydraulic bench or laboratory water supply and is suitable for fluid mechanics laboratories.
The Inclined Pitot Tube Apparatus FluidoSurge-X 152 is designed for precise velocity and pressure measurement in fluid mechanics laboratories. It uses an inclined manometer for enhanced sensitivity at low pressure differences. The setup supports static and dynamic pressure measurement and velocity profile studies. It is compatible with hydraulic benches and standard laboratory water supplies.
The Pitot Tube FluidoSurge-X 144 is designed for velocity and pressure measurement in fluid mechanics laboratories. It enables determination of static and dynamic pressure using a Pitot static tube and manometer. The setup supports velocity profile studies in pipe flow with a transparent acrylic section. It is compatible with hydraulic benches and standard laboratory water supplies.
The Free and Forced Vortex Apparatus FluidoSurge-X 140 is designed for studying vortex motion in fluid mechanics laboratories. It enables generation and measurement of both free and forced vortices using a transparent acrylic vessel. The setup supports surface profile plotting and velocity measurement with interchangeable orifices and a Pitot tube. It is suitable for academic experiments and verification of vortex flow theory.
The Flowmeter Measurement Apparatus FluidoSurge-X 136 is designed for comparative study of flow measurement techniques. It integrates a Venturi meter, orifice meter, and rotameter in one laboratory setup. The system allows comparison of flow readings and pressure drops for incompressible fluids. It operates with a hydraulic bench or laboratory water supply and is suitable for fluid mechanics teaching laboratories.
The Osborne Reynold’s Apparatus with Manometer FluidoSurge-X 133 is designed for studying flow regimes in fluid mechanics laboratories. It enables visualization of laminar, transitional, and turbulent flow using dye injection. The system includes U tube and inverted U tube manometers for pressure measurement. It supports Reynolds number determination through volumetric flow analysis and controlled experimentation.
The Osborne Reynold’s Apparatus FluidoSurge-X 132 is designed to visualize flow regimes in fluid mechanics laboratories. It enables observation of laminar, transitional, and turbulent flow using dye injection. The setup supports Reynolds number determination through volumetric flow measurement. It is suitable for engineering education and demonstration of classical flow behavior.
The Orifice Discharge Apparatus FluidoSurge-X 128 is designed for studying discharge characteristics through orifices. It features a transparent Plexiglass tank with adjustable overflow and interchangeable nozzles. The setup enables measurement of jet velocity, diameter, and flow rate using standard instruments. It is suitable for fluid mechanics laboratory teaching and experimental analysis.
The Bernoulli’s Theorem Apparatus FluidoSurge-X 120 is designed for studying pressure and energy variation in flowing fluids. It uses a transparent Venturi with multiple pressure tapping points and a manometer bank. The setup supports converging and diverging flow experiments and discharge coefficient determination. It is suitable for fluid mechanics laboratory teaching and experimental verification of Bernoulli’s principle.
The Impact of Jet Apparatus FluidoSurge-X 124 is designed for studying jet impact forces in fluid mechanics laboratories. It enables direct measurement of force due to change in momentum of a water jet. The unit includes four interchangeable deflectors with different deflection angles. It operates with a hydraulic bench or standard laboratory water supply for flexible installation.
The FluidoSurge-X 116 Orifice Discharge and Free Jet Flow Apparatus is designed for experimental study of jet flow and discharge through orifices. It features a constant head Plexiglas cylinder with interchangeable nozzles. The setup enables measurement of jet velocity, diameter, and trajectory using standard laboratory instruments. It is suitable for fluid mechanics teaching and verification of theoretical flow principles.
The FluidoSurgeX 112 Hydrostatic Pressure Apparatus is designed for studying hydrostatic thrust on submerged plane surfaces. It allows measurement of force and moment for vertical and inclined planes. The setup uses a transparent quadrant tank with lever arm and calibrated weights. It supports accurate comparison between experimental results and theoretical hydrostatic analysis.
The FluidoSurgeX 108 Metacentric Height Apparatus is designed for studying the stability of floating bodies in fluid mechanics laboratories. It allows determination of metacentric height by varying the center of gravity of a floating pontoon. The setup includes a water tank, adjustable sail weight, plumb bob, and tilt indicator. It is suitable for marine engineering and buoyancy related laboratory experiments.
The FluidoSurgeX 107 Flow Over Weirs Apparatus with Weir Tank is designed for open channel flow experiments in fluid mechanics laboratories. It allows investigation of discharge characteristics over rectangular and V notch weirs. The system includes a corrosion resistant weir tank, stainless steel weir plates, and an adjustable depth gauge. It can be operated using a hydraulic bench or a standard laboratory water supply for flexible installation.
The FluidoSurgeX 104 Flow Over Weirs apparatus is designed for open channel flow experiments in fluid mechanics laboratories. It is used with a hydraulic bench to study flow over V notch and rectangular weirs. The unit includes stainless steel weir plates and a level gauge for head measurement. It supports accurate determination of flow rate and discharge characteristics during laboratory experiments.
The SCIENTICO FluidoSurgeX 105 Hydraulic Bench Apparatus with Flowmeter is designed for fundamental fluid mechanics experiments.
It operates on a closed water circuit with a centrifugal pump and stepped measuring tank.
Integrated flowmeters provide direct flow measurement, supported by manual volumetric methods.
An integrated flume and GRP construction make it suitable for routine laboratory teaching and experimentation.
The SCIENTICO FluidoSurgeX 104 Hydraulic Bench is designed for studying centrifugal pump performance in fluid mechanics laboratories.
It features two centrifugal pumps configurable in single, series, or parallel operation within a closed water circuit.
The system supports volumetric flow measurement, pressure monitoring, and weir experiments.
GRP construction, industrial piping, and integrated instrumentation make it suitable for comprehensive hydraulic studies.
The SCIENTICO FluidoSurgeX 103 Gravimetric Hydraulic Bench is designed for accurate flow measurement in fluid mechanics laboratories.
It uses a closed water circuit with a centrifugal pump and gravimetric measurement system.
Flow rates are determined using lever based weights or optional digital load cells.
An integrated flow channel supports weir experiments, while reinforced fiberglass construction ensures long term laboratory use.
The SCIENTICO FluidoSurgeX 102 Digital Hydraulic Bench is designed for fundamental fluid mechanics laboratory experiments.
It features a closed water circuit with a centrifugal pump, stepped measuring tank, and digital flowmeter.
The system supports accurate volumetric flow measurement using both manual and digital methods.
An integrated flume enables weir experiments, while GRP construction ensures reliable laboratory performance.
The SCIENTICO FluidoSurgeX 101 Hydraulic Bench Apparatus is a basic laboratory unit for fluid mechanics experiments.
It features a closed water circuit with storage tank, centrifugal pump, and stepped measuring tank.
The system enables accurate volumetric flow rate measurement using tanks and a measuring beaker.
An integrated flume supports weir experiments, while the GRP construction ensures long-term laboratory use.
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Advanced Lab Equipment for Studying Piston Pump Performance
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