Fluid Technology

Flange ball valve of stainless steel from G.Bee with the article number ​0060006116100
Flange ball valve of stainless steel
71MEA-100-16-F-AA-R27-0 Antriebsa.
​0060006116100

Manufacturer: G. Bee GmbH
1.424,00 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006116125
Flange ball valve of stainless steel
71MEA-125-16-F-AA-R27-0 Antriebsa.
​0060006116125

Manufacturer: G. Bee GmbH
2.953,00 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006116150
Flange ball valve of stainless steel
71MEA-150-16-F-AA-R27-0 Antriebsa.
​0060006116150

Manufacturer: G. Bee GmbH
3.877,00 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006116200
Flange ball valve of stainless steel
71MEA-200-16-F-AA-R27-0 Antriebsa.
​0060006116200

Manufacturer: G. Bee GmbH
6.072,00 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006011015
Flange ball valve of stainless steel
71ME DN15 PN40 R27
​0060006011015

Manufacturer: G. Bee GmbH
162,30 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006011020
Flange ball valve of stainless steel
71ME DN20 PN40 R27
​0060006011020

Manufacturer: G. Bee GmbH
194,30 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006011025
Flange ball valve of stainless steel
71ME DN25 PN40 R27
​0060006011025

Manufacturer: G. Bee GmbH
250,30 EUR
plus 19% tax excl. Shipping costs
Flange ball valve of stainless steel from G.Bee with the article number ​0060006011032
Flange ball valve of stainless steel
71ME DN32 PN40 R27
​0060006011032

Manufacturer: G. Bee GmbH
324,60 EUR
plus 19% tax excl. Shipping costs
705 to 712 (from a total of 1433)

What is fluid technology?

Fluid technology stands for all processes in which energy is transferred by the flow of gases and liquids. Technical applications of fluid power include hydraulics (transmission of energy through hydraulic fluids) and pneumatics (transmission through compressed air).

The main difference between the two fluid technologies is the use of gases / air in pneumatics and fluid in hydraulics, respectively. While gases and air can be compressed and are therefore compressible, this does not work with fluids in hydraulics. They are therefore incompressible.

This results in various advantages and disadvantages of the two fluid technologies.
 

Advantages of the two fluid technologies

Among the advantages of hydraulics is the movement of extremely large forces, which is due to the use of incompressible fluids. Furthermore, the pressure created by the incompressible fluids and oils is distributed evenly throughout the system. As a result, the force gained is well controlled and can be precisely controlled. Hydraulic systems are also very durable. They are robust and have high durability in their function.

For one thing, pneumatics have the advantage of being much cleaner than hydraulics because air, not oils, is used to transmit power. In addition, pneumatic systems are less complex, which not only facilitates assembly, but at the same time speeds up the replacement of motors or tools. In addition, high flow rates can be achieved with the help of pneumatics.