Measuring Principles/Basic Tech

Question 1

Pressure:

Answer 1

The force exerted over a unit area, p=F/A
Pressure is force divided by the area over which that force is applied.

Question 2

Atmospheric pressure (PISA)

Answer 2

Pressure at the earths surface caused by the weight of the air above it. (14.7 PSIA or 101.4 kPa)

Question 3

Gauge pressure (PSIG):

Answer 3

Uses atmospheric pressure (14.7PSIA) as a zero point.

Question 4

Absolute pressure (Pabs)

Answer 4

gauge pressure + atmospheric pressure

Question 5

Differential pressure:

Answer 5

The difference in pressure between two measurement points in a process.
Pressure Units: “H2O, “WC, “Hg, mm Hg, or torrs (1 mm Hg absolute).

Question 6

3 types of mechanical pressure elements

Answer 6

(B)ourdon Tubes
(B)ellows
(D)iaphragm

Question 7

3 Types of Manometers:

Answer 7

Utube:

Well:

Incline

Question 8

Inclined-tube manometer range:

Answer 8

min: 0-4 “H2O
optimal: 0-6 “H2O
max: 0-8 “H2O

Question 9

Barometer

Answer 9

Used to measure atmospheric
pressure.

Question 10

Diaphragm Range

Answer 10

0-0.05 “H2O to 3000 psi

Question 11

Identification of Instruments: Symbols and Tags

Answer 11

1st Letter: Required. (v)ariable being measured
2nd Letter: Optional. (M)odifier to first letter
3rd Letter: Optional. (o)utput functionality.
Lower Line: Required. (t)ag number

Question 12

The 3 types of range:

Answer 12

Suppressed: Higher than 0 LRV
Elevated: Lower than 0 LRV
Zero: has a 0 LRV

Question 13

Relay

Answer 13

Boost output and valve volume

Question 14

Automatic Feedback Control

Answer 14

-(TT) “eyes” Temperature Transmitter, attached to a temperature indicator.
-(TIC) “brain” Temperature Indicating Controller, attached to the TT that has a set point=desired temperature
-(TCV) “hands” Temperature Control Valve, attached to TIC used to control desired result

Question 15

The purpose of a pressure element

Answer 15

To create mechanical motion
from an input pressure.

Question 16

Bourdon tubes

Answer 16

-Flexible flat cross sectional area
-Brass or stainless steal

Question 17

Types of Bourdon tubes

Answer 17

C-shaped
Helical
Spiral

Question 18

5 Types of Callibration Errors:

Answer 18

Zero
Span
Linear
Hysteresis
Repeadibility

Question 19

Bourdon Tubes:

Answer 19

Flat cross section
Used for pressures + 40 psi
Insufficient spring movement to accurately detect pressures below 30 psi

Question 20

Bourdon Tube range:

Answer 20

Minimum: 40
Maximum: 100 thousand

Question 21

Span

Answer 21

URV-LRV

Question 22

C Shaped Bourdon Tube Range

Answer 22

Range: 0-10 psi to 20 000 psi
Accuracy: +/- 1% span

Question 23

Spiral Bourdon Tube Range

Answer 23

Range: 0-10 psi to 100 000 psi
Accuracy: +/- 0.5% of span

Question 24

Helical Bourdon Tube Range

Answer 24

0-30 psi to 0-80 000 psi
Accuracy: +/- 1 % of span

Question 25

Bellows Element Range

Answer 25

Range: 0-2.5 "H2O to 0-2000 psi Accuracy: +/- 2 % span

Question 26

Diaphragm Element Range

Answer 26

Range: 0-0.5 "H2O to 3000 psi Accuracy: +/- 1%

Question 27

Pressure Gauges Range:

Answer 27

Range: 0 - 10 000 psi

Question 28

When Ordering a gauge

Answer 28

(P)ressure range scale (F)ace size (A)ccurary (C)onnection location (T)ype of mounting PFACT

Question 29

3 Gauge Accessories

Answer 29

-Oil filed -Snubbers -Chemical Seal

Question 30

Incline- Tube Manometer Advantages

Answer 30

-Measures extremely low pressure, even in a vacuum (negative pressure) -Extremely accurate -Unlike mechanical or electronic manometers, inclined manometers don't have any parts that could wear out or deteriorate. -Sensitivity of inclined tube manometers is high

Question 31

Gauge Accessory: Oil Filled

Answer 31

(R)educes plant vibration (I)ncreases gauge life (C)an be filled with glycerin, etc..

Question 32

Gauge Accessory: Snubbers

Answer 32

(R)educes oscillation caused by fluctuations and process pressure (U)ses porous filter disks, pistons, variable orifices or oil filled rubber bulbs (S)low response time so pressure element can respond to pressure changes

Question 33

Gauge Accessory: Chemical Seal

Answer 33

-Protects gauge from corrosive or hot services -Isolates the internal parts from the process material steam, acid, slurries -Filled with non compressible fluid

Question 34

Diaphragm Element

Answer 34

- Stainless steel and filled with liquid -Used in both pneumatic and electric transmitters - Movement dependent on metal thickness, diameter, and # of corrugations

Question 35

Bellows Element

Answer 35

- Used in pneumatic transmitters, recorders, controllers - brass or stainless steel - more sensitive than bourdon tubes so used for low pressures -Sensitivity increases with diameter

Question 36

Helical Bourdon Tube

Answer 36

- Used for continuously fluctuating services - Higher pressure span = more coils

Question 37

Spiral Bourdon Tube

Answer 37

- More motion than C type - Causes flapper to move closer to nozzle - Used in pneumatic motion balance transmitters

Question 38

C Bourdon Tube

Answer 38

-Used in direct indicating gauges -Forces a bar in flapper assembly -Linear indication with gears, cams, pinions

Question 39

Flapper Nozzle Assembly

Answer 39

Converts Mechanical Movement into a pressure signal

Question 40

Typical ranges for Manometers

Answer 40

Utube: 0-200 "H2O Well:0-20 "H2O Incline: 0-8 "H2O

Question 41

Range

Answer 41

Region between limits within a measured quantity expressed by stating the lower and upper range values

Question 42

Span with examples

Answer 42

Difference between upper and lower range values (URV) - (LRV) = span (15) - (3) = span

Question 43

When calibration of an instrument is correct :

Answer 43

-Zero input matches the zero output -Span (maximum input) value matches the max output value - The midpoint input value matches the midpoint output value

Question 44

Calibration Procedure

Answer 44

1. Obtain Instruction Manual 2. Check for damaged or loose parts making sure everythings tight 3. Make a callibration hook up diagram and hook up your equipment accordingly 4. Apply 0% input and adjust the zero for the proper output 5. Apply 100% input and adjust the span for the proper output 6. Repeat steps 4 & 5 until the zero and span values are correct 7.Check midpoint value for linearity error. If provided, adjust it to correct value, then repeat steps 4 to 7 until correct. If no linearity adjustment is provided, record the linearity error and proceed to step eight. 8. Check for repeadibility and hysteresis errors by applying input values of 0, 25, 50, 75 & 100 in both directions, compare use a table.

Question 45

Basic Elements of an Automatic Control Loop

Answer 45

Transmitter Controller Valve

Question 46

Direct Acting

Answer 46

As input goes up, output goes up when speaking relays inputs the back pressure output is the 3-15 psi

Question 47

Reverse Acting

Answer 47

input up, output down when speaking relays inputs the back pressure and output is the 3-15 psi

Question 48

Purpose of a flapper nozzle

Answer 48

Ends the elements mechanical motion and creates our standard output signal

Question 49

What is the purpose of a restriction before the nozzle

Answer 49

To reduce the volume of the flow

Question 50

What would happen on a flapper nozzle if blocked the nozzle

Answer 50

The back pressure would rise up to the supply pressure (20psi)

Question 51

Why is it necessary to have an exhaust valve and port on a relay

Answer 51

output air will escape to atm when backpressure decreases

Question 52

Fixed Orifice Restriction

Answer 52

provide free flow in one direction and Restricted (metered) flow in the reverse direction.

Question 53

Nozzle

Answer 53

a restriction in series, the constant supply of pressurized air is applied to the nozzle through the orifice restriction. The pressurized air comes out of the nozzle through the gap between the nozzle and flapper.

Question 54

Baffle or Flapper

Answer 54

The flapper is positioned in front of the nozzle in such a way to cover or uncover the nozzle and vary the gap between them when moved. When the flapper is moved towards the nozzle, the gap between the nozzle and flapper gets reduced. This increases the restriction to the outflow of air through the nozzle and also increases the nozzle back pressure.

Question 55

Manometers

Answer 55

-Measures positive or negative pressure & differential pressure -Range depends on it's vertical height and the specific gravity of it's fluid

Question 56

2 Types of Analog Signals

Answer 56

-Pneumatic 3-15 psi -Electric 4-20 mA 1-5 volts 10-50 mA

Question 57

4 Common Pressure Scales

Answer 57

(D)ifferential Pressure (A)bsolute (V)acuum (G)auge DAVG

Question 58

Head

Answer 58

Height of a column of liquid Expressed in units "H2O, "Hg