Cidepe
Set of panels for hydrostatics and hydrodynamics with interface and software
Function
Intended for study, hydrodynamics laboratory, hydrodynamics experiments, fluid dynamics on: Stevin's principle, manometers, gauge pressure, differential pressure, fluid velocity through small orifices, volumetric flow, flow in branched ducts, incompressible fluids, types of flow regimes, Reynolds number, laminar flow, hydraulics, hydrodynamics, hydraulic piping systems, friction factor, total pressure loss, distributed pressure loss, localized pressure losses, equivalent length of a pipe, widening and narrowing, Bernoulli's equation, energy equation, total manometric head of a hydraulic pump, variable flow, characteristic curve of a pump, combination of pumps in series, association of pumps in parallel, cavitation in pumps, siphon, piping systems in series and parallel, power line, piezometric line, etc.
Cidepe - Industrial Center for Teaching and Research Equipment - is a company of reference in educational instruments in educational institutions in Brazil and abroad. With an experienced team of engineers, professors, researchers, consultants and other collaborators, Cidepe develops products with technology and human talent to improve the teaching dynamics.
The entire history of pioneering spirit and work focused on customer needs makes the Cidepe brand increasingly present in the lives of thousands of students, bringing greater participation and interest to the knowledge experience in the areas of Chemistry, Physics and Biology. Contact our sales team, we are available to assist your educational institution on this journey towards practical knowledge.
DetailsKey Experiments
- » The fundamental principle of hydrostatics, Stevin's principle, with tube pressure gauge. - 1042.101A
- » The fundamental principle of hydrostatics, Stevin's principle, with differential pressure sensor. - 1042.102A
- » Velocity of fluids through an orifice. - 1042.103A
- » Flow of fluid through three small, vertically positioned orifices. - 1042.103B
- » Volumetric flow rate in incompressible fluids, with differential pressure sensor. - 1042.104A
- » Calculation and analysis of Reynolds number. - 1042.105A
- » Pressure drop in a hydraulic system in a pipeline and in similar pipelines with Y-connection - 1042.108E
- » Determination of the velocity of a fluid in a pipe, the Reynolds number and the friction factor - 1042.109E1
- » Total load loss and determination of distributed and localized load loss - 1042.109E2
- » The equivalent length of a pipe and a singularity - 1042.109E3
- » Pressure and velocity in a fluid, Bernoulli's equation, with differential sensors. - 1042.111F
- » Pressure and velocity in a fluid, Bernoulli's equation, using tube manometers. - 1042.112F
- » Maximum head of a hydraulic pump - 1042.112G
- » The characteristic curves of a CCB pump and a series pump combination - 1042.113G
- » The characteristic curves of a CCB pump and a combination of pumps in parallel - 1042.114G
- » The phenomenon of cavitation in a pump combination. - 1042.115G
- » How a siphon works - 1042.116G
