26:12

VTOL drone propeller design tutorial interface study and multi-rotor calculations, 3D STL models

26:12

VTOL drone propeller design tutorial interface study and multi-rotor calculations, 3D STL models

16:14

Example design of contra-rotating propellers with the multi-rotor interface of the Heliciel software

16:14

Example design of contra-rotating propellers with the multi-rotor interface of the Heliciel software

03:18

3D design software multi rotor propellers, counter ratating, VTVL (Vertical take-off vehicle) drone

03:18

3D design software multi rotor propellers, contra rotating, VTVL (Vertical take-off vehicle) drone

01:50

fluid network modeling in separate parts: creation of subnetwork from an element

01:18

Design drone Propeller 3d files and export STL for printers...

00:53

dessiner des plans 3D de pales d'hélices turbines et éoliennes pour imprimer 3D au format STL

24:00

logiciel calcul mécanique fluides mecaflux , calculs , modélisation 3d, hélices ailes, pompes tuyaux

23:56

mecaflux fluid mechanics software, how to calculate pressure, 3d modeling wing propeller, pipe pumps

05:02

software design of propellers for boats, airplanes, tidal turbines and wind turbines: Heliciel

05:03

software design of propellers for boats, airplanes, tidal turbines and wind turbines: Heliciel

03:55

mecaflux pro3d software calculation pressure losses sizing aeraulic hydraulic networks fluids

03:57

mecaflux pro3d software calculation pressure losses sizing aeraulic hydraulic networks fluids

04:19

saving kinetic energy: role of the Bernoulli hydroelectric venturi aspirator diffuser cone

04:19

fluids saving kinetic energy: role of the Bernoulli hydroelectric venturi aspirator diffuser cone

01:50

Venturi effect dynamic pressure variation and Bernoulli static and dynamic pressure balance

01:50

Venturi effect dynamic pressure variation and Bernoulli static and dynamic pressure balance

01:38

hydrostatic head: Hydraulic network pressure variation according to altitude and water column height

01:38

hydrostatic head: Hydraulic network pressure variation according to altitude and water column height

01:48

calculation of pressure losses in pipes, pipes, elbows. aeraulics, hydraulics pressure drop

01:48

calculation of pressure losses in pipes, pipes, elbows. Air hydraulic pressure loss

06:22

Drag and lift calculations of objects immersed in a fluid current, with Mecaflux software

06:22

Drag and lift calculations of objects immersed in a fluid current, with Mecaflux software

04:17

Calculation of singular, accidental head losses in fluid distribution networks.

04:17

Calculation of singular, accidental head losses in fluid distribution networks.

03:18

calculation of regular pressure loss in hydraulic aeraulic pipes and hoses. load loss software

03:19

calculation of regular pressure loss in hydraulic aeraulic pipes and hoses. load loss software

02:56

Pump operating point: Pump pressure flow sizing according to network pressure drops

02:56

Pump operating point: Pump pressure flow sizing according to network pressure drops

02:55

Use an aerodynamic or hydrodynamic profile coordinate file with mecaflux

02:55

Use an aerodynamic or hydrodynamic profile coordinate file with mecaflux

11:52

export 3D fluid network, from standard mecaflux to pro3D, model 3D fluids networks

11:52

export a 3D fluid network, from standard mecaflux to pro3D, model 3D fluid networks

05:01

tutorial editors of airfoils, hydrodynamics. calculate drag and lift wings foils with mecaflux

05:01

tutorial editors of airfoils, hydrodynamics. calculate drag and lift wings foils with mecaflux

02:34

Fluid lists with viscosity, density, saturated vapor according to temperature, in mecaflux

02:34

Fluid lists with viscosity, density, saturated vapor according to temperature, in mecaflux

15:03

Singular Elements editor tutorial mecaflux standard (expert users)

15:03

Singular Elements editor tutorial mecaflux standard (expert users)

02:41

determine the best pipe diameter for a given flow rate. Size a pipe.

02:41

determine the best pipe diameter for a given flow rate. Size a pipe.

02:33

power calculation of a turbine with pressure drops and height of water intake

02:33

power calculation of a turbine with pressure drops and height of water intake

03:12

pump power according to suction and discharge head, and cavitation control

03:12

pump power according to suction and discharge head, and cavitation control

03:37

Edit graphs of pressure drops, according to a range of flow rates, for fluid network

03:37

Edit graphs of pressure drops, according to a range of flow rates, for fluid network

13:32

software presentation mechanical initiation of mecaflux fluids, pressure losses, drag, lift

13:32

mecaflux software presentation, fluids mechanic initiation , pressure losses, drag, lift ...

02:03

Presentation of the Mecaflux suite of fluid mechanics calculation assistance software

02:03

Presentation of the Mecaflux suite of fluid mechanics calculation assistance software

06:41

example of 3D modeling of the aeraulic suction system with the Mecaflux Pro3D software

06:41

example of 3D modeling of the aeraulic suction system with the Mecaflux Pro3D software

07:50

Piezometric graph of fluid network pressures showing Bernoulli law

07:50

Piezometric graph of fluid network pressures showing Bernoulli's law

11:52

calculates load losses singular elements, example of sand filter modeling

11:55

calculates load losses singular elements, example of sand filter modeling

09:13

use a statement of crossing points of a pipe, to model a network of fluids.