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COMPUTATIONALSIMULATION
METHODS
FLUIDMECHANICS
CONSTRUCTIONOF PLANT ANDMACHINERY
ENGINEERINGMECHANICS
THERMO-DYNAMICS
FLUID ENERGYMACHINES
HYDRAULICENGINEERING
FLUIDMECHANICS
THERMO-DYNAMICS
HYDRAULICENGINEERING
ENGINEERINGMECHANICS
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COMPUTATT TIONAA ALSIMULATION
METHODSDS
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FLUID ENERGYMACHINES
CONSTRUCTIONOF PLANT ANDMACHINERYRY
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FLUID MECHANICS
7
Fluid mechanics plays a fundamental and key role in engi-neering education. Lectures and laboratory exercises on fluid mechanics are part of the standard curriculum for a wide range of engineering disciplines, such as mechanical and plant engineering, energy and process engineering,
environmental engineering, shipbuilding, civil engineering, agriculture, food technology etc. The fundamental prin-ciples of fluid mechanics are also an indispensable part of the teaching programme in vocational education and training for many technical professions.
FLUID MECHANICS AND RELATIONSHIPS TO OTHER ENGINEERING DISCIPLINES
FLUID MECHANICS – AN INTRODUCTION TO THE FIELD
... to support and enrich your lectures and lessons?
We provide demonstration, experiment and research equipment for virtually all topics related to the field of fluid mechanics.
YOU know – as a lecturer and academic in colleges and universities – and WE know – as a developer and manufacturer – that well thought out and clear experi-ments result in a stable and sustainable foundation of knowledge in students.
WHAT CAN GUNT DO FOR YOU...
Your success is our AIM!
GUNT devices allow application of learned theory:
properly conceived experiments
visualisation of processes
design and functionality of systems
We see ourselves as partner to our customers:
Further development of our devices relies on your feedback.
More than 30 years of experience in developing GUNT equipment
We are driven by your feedback:
Tell us your opinion! We are constantly reviewing our product range for permanent improvement!
PLANACT
DOCHECK
Fluid Mechanics overlaps other engineering disciplines. Consequently we have to consider the interconnection and relationship between these disciplines. In order to describe and understand fluid mechanical phenomena and processes we need to revert to knowledge and skills from other engineering fields.
thermodynamics plays a key role in many fluidic processes like the flow of compressible fluids or opera- tional procedures of fluid energy machines
fundamentals of engineering mechanics like friction, conservation of energy, momentum or angular momentum explain many fluid mechanical aspects
flow through layers of materials, the storage capacity of soils and open-channel flow are topics from hydraulic engineering
computing and information technologies offer possi- bilities of computational flow simulation
knowledge of design engineering is necessary for the functional and energy-oriented design of fluid energy machines, plants or piping systems
FLUID MECHANICS
9
FLUID MECHANICS – AN INTRODUCTION TO THE FIELD
material properties of liquids and gases
density, temperature, pressure
heat capacity, gas constant, enthalpy, steam pressure
viscosity, surface tension, capillarity
basic equation of hydrostatics, connected vessels, hydraulic press
compressive forces on boundary surfaces
buoyancy
friction effects, flow patterns
laws of conservation, control volume
continuity equation
momentum equation, principle of angular momentum
cavitation
flow in pipe systems: laminar, turbulent
pressure losses in straight pipes, in pipe fittings, in valves and fittings
discharge processes
energy equation of gaseous fluids
velocity of sound, Mach number, critical velocity of sound
movement with velocity of sound
pressure and velocity distributions in pipe flow
boundary layer, resistance of bodies in flow, pressure distribution
aerofoil: lift, forces, torques, aerodynamic coefficients
PHYSICS AND PROPERTIES OF FLUIDS
FLUIDS AT REST
FUNDAMENTALS OF FLUID DYNAMICS
STEADY FLOW OF INCOMPRESSIBLE FLUIDS
STEADY FLOW OF COMPRESSIBLE FLUIDS
STEADY FLOW AROUND BODIES
MAIN FIELD ELEMENTS KEYWORDS
GUNT devices cover – basically – the educational content of a common university curriculum in the subject area of fluid mechanics. To help you find the best device for your
specific needs, each chapter of this catalogue begins by allocating the learning content from the curriculum to the corresponding GUNT device.
The chapters are largely structured in line with the structure of the standard curriculum. Nevertheless, the allocation of individual GUNT experimental units to the curricular elements is not completely “clear-cut” since with
various devices the overall range of experiments is more broad and more variable. This means that you may use GUNT devices for more than is specifically required by the curriculum.
measuring pressure, velocity, temperature, flow rate and level
geometry of the outlet opening
velocity profile
transient flow in pipes and surge chambers
water hammer
turbomachines, positive-displacement pumps
pumps, turbines, blowers
Finite Element Method (FEM)
application of Computational Fluid Dynamics (CFD)
straight pipes, pipe fittings
shut-off valves and fittings, pumps
FLOW MEASUREMENT TECHNOLOGY
FREE JETS
SELECTED EXAMPLES OF TRANSIENT FLOWS
FLUID ENERGY MACHINES (TURBOMACHINES)
NUMERICAL METHODS / FLOW SIMULATION
COMPONENTS IN PIPING SYSTEMS
MAIN FIELD ELEMENTS KEYWORDS
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