- Startseite
- Produkte
- 1.- PHYSIK
- AKADEMISCHE PROGRAMME
- HÖHERE TECHNISCHE AUSBILDUNG
- LEBENSMITTELTECHNIK
- TOPOGRAPHIC ENGINEERING
- GEOLOGIE
- FOREST ENGINEERING
- UMWELTTECHNIK
- ÖKOLOGISCHES ENGINEERING
- TEXTILE ENGINEERING
- ENGINEERING FÜR DIE LANDWIRTSCHAFT
- MASCHINENBAU
- CHEMISCHE
- CHEMIEINGENIEURWESEN
- VERFAHRENSTECHNIK
- GEOLOGISCHE, BERGBAU- UND ÖLTECHNIK
- PETROLEUM-AUSBILDUNGSZENTRUM
- MEERESTECHNIK
- LANDWIRTSCHAFTLICHE TECHNIK
- ELEKTROTECHNIK
- DIE ARCHITEKTUR
- INFORMATIK UND INGENIEURWESEN
- NUKLEARTECHNIK
- AUTOMATISIERUNGATECHNIK
- ENERGIETECHNIK
- ZENTRUM FÜR ENERGIETRAINING
- ELEKTROTECHNIK
- SYSTEMS ENGINEERING
- LUFTFAHRTTECHNIK
- MARINE WISSENSCHAFTEN
- PHYSIK
- WIRTSCHAFTSINGENIEURWESEN
- INTERNATIONALES ZENTRUM FÜR TECHNISCHE AUSBILDUNG, ENTWICKLUNG UND FORSCHUNG
- WERKSTOFFTECHNIK
- METALLURGISCHE TECHNIK
- BAUINGENIEURWESEN
- TELEKOMMUNIKATIONS-INGENIEURWESEN
- THERMOTECHNIK
- TECHNISCHE SCHULEN
- ELEKTRONIK
- KOMMUNIKATIONSTECHNIK
- ELEKTRIK
- INFORMATIK UND INGENIEURWESEN
- AUTOMOBILTECHNIK
- BAUINGENIEURWESEN
- MECHANIK UND HERSTELLUNG
- MECHANISCH UND METALL
- STRÖMUNGSMECHANIK
- KÜHLUNG UND KLIMAANLAGE
- INDUSTRIELLE CHEMIE
- CHEMISCHE
- LEBENSMITTELTECHNIK
- LANDWIRTSCHAFT
- AGROINDUSTRIE
- INSTANDHALTUNG
- MARITIME UND FISCHEREI
- LUFTFAHRZEUGINSTANDHALTUNG
- INSTRUMENTIERUNG UND REGELUNG
- UMWELT
- TECHNOLOGIE
- BAUTECHNOLOGIE
- ELEKTROMECHANISCHE TECHNOLOGIE
- STRUKTURDESIGN-TECHNOLOGIE
- INDUSTRIEPRODUKTIONSTECHNOLOGIE
- INFORMATIONSTECHNOLOGIE
- QUALITÄTSKONTROLLE
- ENERGIESYSTEMTECHNOLOGIE
- BERGBAU- UND PETROLEUMTECHNOLOGIE
- TECHNIK FÜR NATURGAS
- ERNEUERBARE ENERGIEN
- TELEKOMMUNIKATIONSTECHNOLOGIE
- MECHANISCHE TECHNOLOGIE
- WINDENERGIETECHNOLOGIE
- KERNTECHNOLOGIE
- PROZESSKONTROLLTECHNOLOGIE
- ALLGEMEINE DIENSTLEISTUNGSTECHNOLOGIE
- LABORTECHNOLOGIE
- AUTOMATION UND MECHATRONIK
- TRANSPORT UND LOGISTIK
- HÖHERE TECHNISCHE AUSBILDUNG
- 2.- ELEKTRONIK
- 3.- KOMMUNIKATIONSTECHNIK
- 4.- ELEKTRIK
- 5.- ENERGIETECHNIK
- 5.1.- SMART GRIDS UND POWER SYSTEMS
- 5.2.- MIKROGRIDE
- 5.3.- ERNEUERBARE ENERGIEN
- 5.3.1.- PHOTOVOLTAISCHE SOLARENERGIE
- 5.3.2.- SOLARTHERMISCHE ENERGIE
- 5.3.3.- WINDENERGIE
- 5.3.4.- MEERESENERGIE
- 5.3.5.- GEOTHERMISCHE ENERGIE
- 5.3.6.- HYDRAULISCHE ENERGIE
- 5.3.7.- BIOKRAFTSTOFFE
- 5.3.8.- ENERGIESPEICHERSYSTEME
- 5.3.9.- WASSERSTOFFKRAFTSTOFFZELLEN
- 5.3.10.- DAMPFTURBINEN UND ORGANIC RANKINE CYCLES
- 5.3.11.- ANDERE NICHTKONVENTIONELLE SYSTEME
- 5.4.- KONVENTIONELLE ENERGIEN
- 5.5.- ENERGIESPEICHER
- 5.6.- HOCHSPANNUNGS- UND ELEKTRISCHE SCHUTZSYSTEME
- 5.7.- INSTALLATIONEN UND WARTUNG
- 6.- MECHATRONIK UND AUTOMATISIERUNG
- 7.- MECHANIK
- 8.- STRÖMUNGSMECHANIK
- 9.- THERMODYNAMIK & THERMOTECHNIK
- 9.1.- GRUNDLAGEN UND GRUNDKONZEPTE DER THERMODYNAMIK
- 9.2.- HEIZUNG, BELÜFTUNG, KLIMAANLAGE UND HEISSES WASSER
- 9.3.- WÄRMEPUMPEN
- 9.4.- KÜHLUNG
- 9.5.- THERMISCHES HYDRAULISCHES LEITUNGSSYSTEM
- 9.6.- WÄRMEÜBERTRAGUNG
- 9.7.- WÄRMETAUSCHER
- 9.8.- THERMISCHE MASCHINEN
- 9.9.- VERBRENNUNGSMOTOREN
- 9.10.- INSTALLATIONEN UND WARTUNG
- 10.- PROZESSSTEUERUNG
- 11.- CHEMIEINGENIEURWESEN
- 11.1.- EINHEITSBETRIEB
- 11.1.1.- FLUIDIZATION
- 11.1.2.- EVAPORATION
- 11.1.3.- BOILING
- 11.1.4.- DISTILLATION AND CRACKING
- 11.1.5.- EXTRACTION
- 11.1.6.- DIFFUSION
- 11.1.7.- DRYING AND COOLING
- 11.1.8.- ABSORPTION AND ADSORPTION
- 11.1.9.- ION EXCHANGE AND CORROSION
- 11.1.10.- CRYSTALLIZATION AND PYROLYSIS
- 11.1.11.- FILTRATION, SEDIMENTATION AND MIXING
- 11.1.12.- SOLIDS TREATMENT
- 11.2.- CHEMISCHE REAKTOREN
- 11.1.- EINHEITSBETRIEB
- 12.- NAHRUNGSMITTEL- UND WASSERTECHNOLOGIE
- 13.- UMWELTTECHNIK
- 14.- BIOMEDIZINTECHNIK
- 14.1.- BIOMECHANIK
- 14.1.1.- MECHANICS FUNDAMENTALS KITS
- 14.1.2.- EINFACHE MASCHINEN
- 14.1.3.- STATIK UND DYNAMIK
- 14.1.4.- VIBRATIONEN UND OSZILLATIONEN
- 14.1.5.- TRIBOLOGIE (REIBUNG, TRAGUNG, SCHMIERUNG)
- 14.1.6.- STRUKTURMECHANIK
- 14.1.7.- FOTOELASTIZITÄT UND STRAIN-MESSUNG
- 14.1.8.- MECHANISCHE TESTS
- 14.1.9.- THERMISCHE UND AKUSTISCHE PRÜFUNGEN
- 14.2.- BIOMEDIZINISCHE ELEKTRONIK
- 14.3.- BIOMEDIZINISCHE AUSRÜSTUNG
- 14.1.- BIOMECHANIK
- LABORZUBEHÖR
- MAßGESCHNEIDERTE PILOTANLAGEN
- MODULEN
- ERWEITERUNGEN
- LABORATORIEN
- Geschäftslinien
- Technologie
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BDAS System zur Datenerfassung und Sensorik
INNOVATIVE SYSTEME
BDAS is designed to monitor the measurements of each unit type "FME" from a computer (PC).
This system can monitor any unit, checking the revolutions given by the water pump or the torque, differential pressures for Bernoulli theorems, pressure measurements, flow measurements, etc.
Laboratorien
ÄHNLICHE NEUIGKEITEN
At EDIBON, we are committed to strengthening skills as a strategic pillar for the competitiveness and social well-being of the European Union. Proper training not only boosts the economy but also enables individuals to fully participate in society and democracy.
We are very pleased that we have recently completed an installation in the department of Physics and Engineering at the Slippery Rock University.
It's always a pleasure to work on projects like this!
We are pleased to announce our latest installation at URJC, specifically for the department of signal theory and communications and telematic systems and computing of the Higher Technical School of Telecommunications Engineers in Fuenlabrada (Spain), including BDAS/BMA, MTP or RYC, among others...
Are you a teacher or do you work as an engineering researcher? EDIBON offers courses for teachers and #research staff. Take a look at the course of Fluid Mechanics and learn about #fluids properties. #DiscoverEdibon #Engineering.
ALLGEMEINE BESCHREIBUNG
BDAS is designed to monitor the measurements of each unit type "FME" from a computer (PC).
This system can monitor any unit, checking the revolutions given by the water pump or the torque, differential pressures for Bernoulli theorems, pressure measurements, flow measurements, etc.
ERGÄNZENDE AUSRÜSTUNG
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME21
The Radial Flow Turbine unit, "FME21", designed by EDIBON, allows the study of a turbomachine, specifically radial turbines capable of handling slower flow levels than other turbine models.This unit consist of a miniature Radial Turbine with two...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME27
Gerät der Axialströmungsturbine
With the Axial Turbine, "FME27", designed by EDIBON, it is possible to study and to understand the axial flow turbines which, unlike the radial flow turbines, the working fluid is parallel to the axis of rotation.This unit consists of an axial...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME28
Gerät der Francis-Turbine
With the Francis Turbine unit, "FME28", designed by EDIBON, we study the Francis turbines commonly used when we have average flow rates and heights.This unit consists on a miniature Francis turbine. The water inlet flow is controlled by a valve...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME29
Gerät der Kaplan-Turbine
With the Kaplan Turbine unit, "FME29", designed by EDIBON, we study the Kaplan turbines commonly used when we have high flow rates but low flow height.This unit consists on a miniature Kaplan turbine. The water inlet flow is controlled by a valve...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
LIFLUBA
Integriertes Labor für Grundlagen der Fluidmechanik
Hydraulics is the branch of science that deals with the mechanical properties of fluids, and Fluid Mechanics provides the foundation for hydraulics.With LIFLUBA (Basic Fluids Mechanics Integrated Laboratory), EDIBON tries to give answer to the...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME16
Gerät der Pelton-Turbine
The Pelton Turbine unit, "FME16", designed by EDIBON, allows the study of the characteristics of the tangential wheels or pressure turbines commonly used to produce electricity in hydroelectric plants to exploit large hydraulic jumps of low...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME21
Gerät der Radialströmungsturbine
The Radial Flow Turbine unit, "FME21", designed by EDIBON, allows the study of a turbomachine, specifically radial turbines capable of handling slower flow levels than other turbine models.This unit consist of a miniature Radial Turbine with two...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME27
Gerät der Axialströmungsturbine
With the Axial Turbine, "FME27", designed by EDIBON, it is possible to study and to understand the axial flow turbines which, unlike the radial flow turbines, the working fluid is parallel to the axis of rotation.This unit consists of an axial...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME28
Gerät der Francis-Turbine
With the Francis Turbine unit, "FME28", designed by EDIBON, we study the Francis turbines commonly used when we have average flow rates and heights.This unit consists on a miniature Francis turbine. The water inlet flow is controlled by a valve...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME29
Gerät der Kaplan-Turbine
With the Kaplan Turbine unit, "FME29", designed by EDIBON, we study the Kaplan turbines commonly used when we have high flow rates but low flow height.This unit consists on a miniature Kaplan turbine. The water inlet flow is controlled by a valve...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
LIFLUBA
Integriertes Labor für Grundlagen der Fluidmechanik
Hydraulics is the branch of science that deals with the mechanical properties of fluids, and Fluid Mechanics provides the foundation for hydraulics.With LIFLUBA (Basic Fluids Mechanics Integrated Laboratory), EDIBON tries to give answer to the...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME16
Gerät der Pelton-Turbine
The Pelton Turbine unit, "FME16", designed by EDIBON, allows the study of the characteristics of the tangential wheels or pressure turbines commonly used to produce electricity in hydroelectric plants to exploit large hydraulic jumps of low...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME21
Gerät der Radialströmungsturbine
The Radial Flow Turbine unit, "FME21", designed by EDIBON, allows the study of a turbomachine, specifically radial turbines capable of handling slower flow levels than other turbine models.This unit consist of a miniature Radial Turbine with two...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME27
Gerät der Axialströmungsturbine
With the Axial Turbine, "FME27", designed by EDIBON, it is possible to study and to understand the axial flow turbines which, unlike the radial flow turbines, the working fluid is parallel to the axis of rotation.This unit consists of an axial...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME28
Gerät der Francis-Turbine
With the Francis Turbine unit, "FME28", designed by EDIBON, we study the Francis turbines commonly used when we have average flow rates and heights.This unit consists on a miniature Francis turbine. The water inlet flow is controlled by a valve...
8.1.7.- HYDRAULISCHE MASCHINEN: TURBINEN
FME29
Gerät der Kaplan-Turbine
With the Kaplan Turbine unit, "FME29", designed by EDIBON, we study the Kaplan turbines commonly used when we have high flow rates but low flow height.This unit consists on a miniature Kaplan turbine. The water inlet flow is controlled by a valve...
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