Presentation is loading. Please wait.

Presentation is loading. Please wait.

ACADs (08-006) Covered Keywords Flow rate, total flow, differential pressure, percent flow, cotameter, Bernouli. Description Supporting Material 1.1.2.15.4.1.7.

Published byJudith Neal Modified over 8 years ago

Similar presentations

Presentation on theme: "ACADs (08-006) Covered Keywords Flow rate, total flow, differential pressure, percent flow, cotameter, Bernouli. Description Supporting Material 1.1.2.15.4.1.7."— Presentation transcript:

1 ACADs (08-006) Covered Keywords Flow rate, total flow, differential pressure, percent flow, cotameter, Bernouli. Description Supporting Material 1.1.2.15.4.1.7

2 Terminal Objective: Given the appropriate equipment and procedures the I&C Technician will calibrate and maintain flow instrumentation. Mastery will be demonstrated by successful completion of a Lab Performance Exercises and written Exam. Measuring Flow

3 Differentiate between Flow Rate and Total Flow Describe the relationship between differential pressure and flow Given a percent range of DP sensed by an orifice plate, calculate the percent flow Describe the theory of operation of a given flow measurement device Describe the considerations for removing/restoring a rotameter from/to service

4 Flow Rate vs. Total Flow Flow Rate is the amount of fluid, either in mass or volume that passes a point in a given time. Examples: Pounds mass per hour, gallons per minute  We measure flow rate using ultrasonics, venturi, orifice plates, etc. Total Flow is the flow rate multiplied by an amount of time. It is the accumulated or ‘totalized flow. Result will be in either mass or volume.  Gas pumps and water meters measure total flow

5 Daniel Bernouli Discovered the square root relationship between DP and flow Bernoulli's Principle states that as the speed of the fluid increases the pressure in the fluid decreases Therefore, across a restriction in flow, as the fluid velocity increases, pressure decreases http://home.earthlink.net/~mmc191 9/venturi.html http://home.earthlink.net/~mmc191 9/venturi.html

6 -or-

7 Flow Instruments

8 Example 1 Pressure drop range: 0-100 in H2O Flow: 0 to 100 GPM Currently reading 25 in H2O What is the flow?

9 Example 2 Pressure drop range: 0-100 in H2O Flow: 0 to 1000 GPM Currently flow is 80 GPM What is the differential pressure? What devices may be used for the square root function?

10

11

12 Discovered two centuries ago by Italian scientist Giovanni Battista Venturi (1746 - 1822).

13 Venturi Tube

14 Flow Nozzle

15 Elbow Tap

16 Henri de Pitot (1695-1771)

17 Annubar

18 When flow exists, there is a constant differential pressure across the float Rotameter

19 Replacing a Rotameter Isolate the instrument Drain Verify correct replacement part Install Verify pressure tight Un-isolate slowly to prevent slamming the float In service leak check

20 Flow Instruments: DP Cell

21

22

23 Ultrasonic Flow Measurement Devices Examples: Controlotron, UFM

24 Coriolis Offer direct mass flow, volume flow, density, and temperature measurement of liquids, gases, and slurries No moving parts Mass flow rate causes the vibrating tubes to twist The twist of the tubes is proportional to mass flow Watch the Coriolis Flow video-10 min

25 Electromagnetic Flow Measurement Faraday’s Law

26

27

28 Other methods of measuring flow Rotary Vane Positive Displacement-turbine Nutating Disk or piston Hot wire method, temperature method Pelton Wheel Vortex shedding Calorimetric method Open Channels Weirs Target meter

29 Read OE18368 at end of ‘Flow’ section in handout. Discuss: What happened? Could it happen here? What can we do to mitigate it? Discuss control of test leads.

30 On to Measuring Temperature

31

Download ppt "ACADs (08-006) Covered Keywords Flow rate, total flow, differential pressure, percent flow, cotameter, Bernouli. Description Supporting Material 1.1.2.15.4.1.7."

Similar presentations

Industrial Instrumentation

Industrial Instrumentation
Objectives Velocity and flow measurement

Objectives Velocity and flow measurement
Unit Operation Lab K S Chou Ch E, N T H U 1. A: Fluid Flow Experiments A1 - Friction Coefficient in Tubes A2 - Flowmeters  Types of flowing fluid: gas.

Unit Operation Lab K S Chou Ch E, N T H U 1. A: Fluid Flow Experiments A1 - Friction Coefficient in Tubes A2 - Flowmeters  Types of flowing fluid: gas.
FLOW measurements.

FLOW measurements.
Competition Other types of flow meters Thermal Mass flow competition.

Competition Other types of flow meters Thermal Mass flow competition.
Measurements in Fluid Mechanics 058:180 (ME:5180) Time & Location: 2:30P - 3:20P MWF 3315 SC Office Hours: 4:00P – 5:00P MWF 223B-5 HL Instructor: Lichuan.

Measurements in Fluid Mechanics 058:180 (ME:5180) Time & Location: 2:30P - 3:20P MWF 3315 SC Office Hours: 4:00P – 5:00P MWF 223B-5 HL Instructor: Lichuan.
Measurements in Fluid Mechanics 058:180:001 (ME:5180:0001) Time & Location: 2:30P - 3:20P MWF 218 MLH Office Hours: 4:00P – 5:00P MWF 223B-5 HL Instructor:

Measurements in Fluid Mechanics 058:180:001 (ME:5180:0001) Time & Location: 2:30P - 3:20P MWF 218 MLH Office Hours: 4:00P – 5:00P MWF 223B-5 HL Instructor:
Washington University ChE 433 Digital Process Control Laboratory

Washington University ChE 433 Digital Process Control Laboratory
Flow Measurement by Ashfaq Md. Ansery.

Flow Measurement by Ashfaq Md. Ansery.
ENTC-303Dr. Alvarado1 Flow Measuring Devices. ENTC-303Dr. Alvarado2 Flowmeters Devices used to measure flow rate: –Venturi (based on pressure difference)

ENTC-303Dr. Alvarado1 Flow Measuring Devices. ENTC-303Dr. Alvarado2 Flowmeters Devices used to measure flow rate: –Venturi (based on pressure difference)
Flow Measurement.

Flow Measurement.
Bernoulli ’ s Equation. Outline The Energy Balance for a Steady Incompressible Flow The Friction Heating Term Bernoulli ’ s Equation The Head Form Diffusers.

Bernoulli ’ s Equation. Outline The Energy Balance for a Steady Incompressible Flow The Friction Heating Term Bernoulli ’ s Equation The Head Form Diffusers.
Volume Flow Measurements. Obstruction Meters u Orifice Meters u Venturi Meters u Flow Nozzles.

Volume Flow Measurements. Obstruction Meters u Orifice Meters u Venturi Meters u Flow Nozzles.
ACADs (08-006) Covered Keywords Calibrate, direct, inferred, transmitter calibration, gravity correction, density correction, hydrostatic head detector,

ACADs (08-006) Covered Keywords Calibrate, direct, inferred, transmitter calibration, gravity correction, density correction, hydrostatic head detector,
FLOW METER SELECTION SEMINAR

FLOW METER SELECTION SEMINAR
Flow Measurement M. Shahini.

Flow Measurement M. Shahini.
Chapter Five Flow Measurement

Chapter Five Flow Measurement
1 Syafruddin Hasan. 2 Systems Concepts Automated systems that control flow rates or volume employ the following components: Automated systems that control.

1 Syafruddin Hasan. 2 Systems Concepts Automated systems that control flow rates or volume employ the following components: Automated systems that control.
1 Anayet Karim. 2 Course Evaluation Test 1Test 1 Test 2Test 2 Assignment 1Assignment 1 Assignment 2Assignment 2 Lab ModuleLab Module Final ExamFinal Exam.

1 Anayet Karim. 2 Course Evaluation Test 1Test 1 Test 2Test 2 Assignment 1Assignment 1 Assignment 2Assignment 2 Lab ModuleLab Module Final ExamFinal Exam.
Process Variables and Sensors. Parts and materials needed for today (instructor will provide): DP transmitters Thermocouples Filled-bulb temperature sensor.

Process Variables and Sensors. Parts and materials needed for today (instructor will provide): DP transmitters Thermocouples Filled-bulb temperature sensor.

Similar presentations

Ads by Google