Burkert S030 Operating Instructions Manual - Page 4

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Burkert S030 Operating Instructions Manual

Conformity to standards and

directives

The applied standards, which verify conformity with the EU

Directives, can be found on the EU Type Examination Cer-

tificate and/or the EU Declaration of Conformity (if applicable).

• Pressure Equipment Directive 2014/68/EU, article 4§1.

The product can only be used in the following cases

(depending on the maximum pressure, the DN of the

pipe and the fluid):

Type of fluid

Conditions

Fluid group 1,

DN ≤ 25

art. 4 §1.c.i

DN ≤ 32

Fluid group 2,

art. 4 §1.c.i

or DN < 32 and PNxDN ≤ 1000

DN ≤ 25

Fluid group 1,

art. 4 §1.c.ii

or PNxDN ≤ 2000

DN ≤ 200

Fluid group 2,

or PN ≤ 10

art. 4 §1.c.ii

or PNxDN ≤ 5000

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Materials

Sensor holder

Body

Paddle-wheel

Fig. 2:

Sectional drawing of the S030 fitting

Component

Material

Seal

FKM

EPDM with FDA agreement on request

Body

Stainless steel (316L - 1.4404)

Brass (CuZn39Pb2)

PVC, PP, PVDF

Screws

Stainless steel (316L - 1.4404)

Paddle-wheel

PVDF

PP on request

Shaft and bearings Ceramics (Al

Dimensions

→

Please refer to the technical data sheets regarding the

product type S030, available at:

English

Axis

Seal

)

www.burkert.com

Fluid data

Maximum fluid viscosity

Type of fluid

Rate of solid particles in

the fluid

Maximum particle size

General data

Flow rate measurement

• Measurement range

• Measurement deviation

- with standard K

factor

- with K factor deter-

mined with a Teach-

in procedure

• Linearity

• Repeatability

* Determined in the following reference conditions:

medium = water, water and ambient temperatures 20 °C, minimum

upstream and downstream distances respected, appropriate pipe

dimensions.

K factors (pulse/litre)

The K factors have all been determined under the following

reference conditions: fluid = water, water and room tem-

peratures of 20°C, minimum upstream and downstream

distances respected, appropriate pipe dimensions.

If the S030 fitting is combined with a flow trans-

mitter or a flow indicator that does not automati-

cally convert the K factors, make the conversion

using one of the following formulae:

K factor in pulse/US gallon = K factor in pulse/litre x

3.785 to obtain a flow rate value in US gallon/time unit

K factor in pulse/UK gallon = K factor in pulse/litre x

4,546 to obtain a flow rate value in UK gallon/time unit

300 cSt

Clean, neutral or slightly

aggressive liquids

max. 1 %

0,5 mm

• 0,3...10 m/s

±2.5 % of the measured value*

±1 % of the measured value*

(at the flow rate value the

Teach-in has been made)

• ±0,5 % of the full scale*

• ±0,4 % of the measured

value*

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