Upload
christian-stenson
View
216
Download
0
Tags:
Embed Size (px)
Citation preview
2 Pro
Min
en
t®
• Convey (like any pump)• Measure (repeated displacement of defined volume)• Adjust
– Volume per displacement– Frequency of displacements
METERING PUMP DEFINITIONMETERING PUMP DEFINITION
Convey AdjustMeasure
3 Pro
Min
en
t®
METERING PHILOSOPHY
• Think of the pump as a continuous fluid measurement device
• Converts batch processes (fluid measured, then mixed), to in-line processes (fluids continuously measured and mixed)
4 Pro
Min
en
t®
What is a Metering Pump?
Hydraulic Institute Definition:
“A controlled volume pump (also called a “metering”, “proportioning” or “chemical injection pump”) is a reciprocating power pump used to accurately displace a predetermined volume of liquid in a specified time period and is driven by power from an outside source applied to the pump mechanism. It includes a mechanism for varying the effective plunger, piston or diaphragm displacement.”
Some Pump Manufacturers Add:
“It includes a mechanism for varying the effective frequency of displacements.”
ProMinent Fluid Controls
5 Pro
Min
en
t®
Gear Pump
PeristalticPump
ProgressingCavity Pump
Air OperatedDiaphragm Pump
Displacement per revolution not adjustable. Not linear from high to low RPMs due to slip at low speed.
Displacement per revolution not adjustable. Tube stretch prevents repeatability.
Displacement per revolution not adjustable. Chemical incompatibility common w/ rotor.
Displacement per stroke not adjustable. Not repeatable due to variable air pressure, flexible diaphragm.
What claims to be a Metering Pump, but isn’t?
ProMinent Fluid Controls
7 Pro
Min
en
t®
Metering Pump System Hydraulics and Application of Accessories
ProMinent Fluid Controls
The metering pump system design, the fluid pumped, and the accessories installed all play a vital role in system safety, repeatability and reliability.
Key Concept: Metering Pump System
8 Pro
Min
en
t®
Negative Suction Head (suction lift)
Positive Suction Head
(flooded suction)
Suction Head
ProMinent Fluid Controls
9 Pro
Min
en
t®
Atmospheric pressure always pushes down on any fluid surface. When the pump diaphragm creates a negative pressure in the pump head, atmospheric pressure forces fluid up the suction tube to fill the cavity.
Atmospheric pressure at 500 feet above sea level = 14.5 psia = 1 bar = 34 feet of water
If the pump pulled a perfect vacuum, the maximum suction lift possible on earth, pumping water, is 34 feet.
Suction Lift
14.5 psia
ProMinent Fluid Controls
10 Pro
Min
en
t®
14.5 psia
14.5 psia
14.5 psia
Suction Lift
What happens if the tank is not vented (open to atmosphere)?
ProMinent Fluid Controls
11 Pro
Min
en
t®
Specific Gravity
Specific Gravity is the fluid’s density in relation to the density of water (S.G. 1.0). For example:
Sulfuric acid density = 15.34 lbs/gal Therefore:
Water density = 8.34 lbs/gal S.G. = 1.84
Ammonia density = 5.25 lbs/gal Therefore
Water density = 8.34 lbs/gal S.G. = 0.63
Because atmospheric pressure forces fluid into the pump head during the suction stroke, if the fluid has a specific gravity greater than 1.0, the suction lift ability will be reduced.
Specific gravity is independent of viscosity, and does not impact pump capacity, only suction lift capability.
12 Pro
Min
en
t®
Actual Suction Lift =
Rated Suction Lift (water) / S.G.
Rated Suction Lift for VAMb04120 = 6.6 feet
Application: Chromic Acid (1.4 SG)
Actual Suction Lift = 6.6 / 1.4 = 4.7’
Specific Gravity Impact on Suction Lift
ProMinent Fluid Controls
13 Pro
Min
en
t®
Viscosity
Viscosity is a measure of a fluid’s resistance to flow.
Viscosities greater than that of water increase friction loss and result in reduced pump capacity.
When selecting a pump for viscous fluids:
Oversize the pump
Put springs in the valves to help seat the balls
Use high viscosity solenoid pumps
Reduce stroking rate to minimum possible
Keep stroke length as great as possible
Provide flooded suction with oversized suction line
ProMinent Fluid Controls
14 Pro
Min
en
t®
Ammonia 0.63 29.5
SAE 30 oil 0.9 200 @ 130 deg F
Brine 1.2 33
Gasoline 0.73 30
Glycerine 1.26 2950
Nitric Acid 1.42 31.5
Sulfuric Acid 1.84 66
Water 1.00 31.5
Specific Gravity and Viscosity of Common Fluids
Fluid S.G. Viscosity (SSU)
ProMinent Fluid Controls
15 Pro
Min
en
t®
Vapor Pressure
Matter exist as solids, liquids or gasses. The state of matter depends on the compound itself, the pressure around it, and the temperature.
The Vapor Pressure of any fluid relates to the pressure and temperature at which it flashes from a liquid phase to a gas phase. It is defined as the pressure exerted when a liquid is in equilibrium with its own vapor.
The higher the vapor pressure, the more likely the fluid will vaporize on the suction side of a pump during the suction stroke, causing cavitation.
16 Pro
Min
en
t®
Pressure Relief Valve
Prevents over-pressurizing pump and piping system.
Pressure Adjusting Nut
Spring
Diaphragm Hub
Diaphragm
17 Pro
Min
en
t®
Pressure Relief Options - Flooded Suction
3-port PRV
2-Port BPV on Tee
Pressure Relief may discharge back to tank, but where tank is distant from pump, relief back to suction line is common.
18 Pro
Min
en
t®
Pressure Relief Options - Suction Lift
Two port back-pressure valve off of a tee on the discharge line
Three port in-line pressure relief valve discharges to tank through relief port
19 Pro
Min
en
t®
Backpressure Valve
Provides backpressure to improve repeatability.
Prevents siphoning when suction head exceeds discharge head.
Pressure Adjusting Nut
Spring
Diaphragm Hub
Diaphragm
20 Pro
Min
en
t®
Backpressure Valve
The injection quill can create a venturi effect in a flowing pipe, developing a vacuum. This can draw chemical through the system even if the pump is stopped.
The anti-siphon (backpressure) valve prevents the vacuum from causing chemical to be drawn into water line.
21 Pro
Min
en
t®
Backpressure Valve
The backpressure valve also prevents fluid from simply free-flowing through the system when the suction port is higher than the point of discharge.
22 Pro
Min
en
t®
Backpressure Valve
When discharging into a vacuum line, use two backpressure valves to ensure maximum protection against siphoning.
Regulatory agencies may require use of two anti-siphon valves in certain applications such as adding fluoride to drinking water.
The backpressure created by the two valves (and the injection valve) is not additive. Whichever valve is set at the highest pressure will determine the system pressure
at the pump.
23 Pro
Min
en
t®
Pulsation Dampener
In a reciprocating pump system, the entire fluid column between the pump and injection point stops flowing at each suction stroke and is forced to flow at each discharge stroke.
Overcoming inertia creates large momentary pressure spikes on the pump system.
24 Pro
Min
en
t®
Pulsation Dampener
A pulsation dampener minimizes the pressure spikes by using compressed air to absorb the forces due to momentum of the fluid inertia.
The flow losses are called acceleration/deceleration forces.
AIR
FLUID
25 Pro
Min
en
t®
Pulsation Dampener
Principle of Operation: Air is compressible, fluid is not.
Size dampener volume to 26 times fluid displacement per stroke, or consult piping program.
Charge dampener air pressure to 90% of fluid pressure. You must have backpressure for dampener to be effective.
Locate dampener as close to pump as possible, preferably as shown.
26 Pro
Min
en
t®
Suction Lift vs. Flooded Suction
Suction Lift
Actual lift = Rated lift (water)/ Specific Gravity
Requires foot valve/strainer
Short suction line best. Line should always be sloping upwards.
Required for self-degassing pumps and degassing bleed valves.
Flooded Suction
Minimizes cavitation and off-gassing problems.
Best for viscous fluids.
Requires isolating valve.
Short suction line best. Line should always be sloping upwards.
Diaphragm failure can drain tank.
27 Pro
Min
en
t®
Suction Side Pulsation Dampening
Where losses in suction line cause cavitation, a suction side pulsation dampener may be required. The air side of the dampener should be at atmospheric pressure (not charged).
28 Pro
Min
en
t®
Foot Valve
The foot valve is used in a suction lift application to prevent loss of prime when the pump is stopped, and to improve repeatability by preventing cavitation.
Suction Tube
Tube Fitting
Check Ball
Ball Check Seat
30 mesh screen keeps solids out
Ceramic weight keeps suction line straight, ports let fluid in.
29 Pro
Min
en
t®
Injection ValveInjection quill puts chemical into flow for good mixing
NPT thread to mount into pipe
Valve Spring (not used in PTFE valves) provides backpressure, ensures ball seating.
Check Ball
Ball Check Seat
Tube Fitting
Discharge Tubing from Pump
30 Pro
Min
en
t®
Calibration Column
• Provide a verification of the
flow rate of the chemical feed pump
• Available in borosilicate glass or PVC
• Sizes from 100 mL to 10000 mL
• Marked in gallons or milliliters
noelt:
Real pic of cal column
noelt:
Real pic of cal column
31 Pro
Min
en
t®
Multifunction Valve• Operated by smooth-action rotary
knobs which automatically return to their initial position when released
• Mounted directly on the liquid end of the pump for:
Backpressure
Antisiphon
Pressure relief
Priming
Draining the discharge line
32 Pro
Min
en
t®
Float Switch• Monitors the fluid level in the chemical
tank
• Single stage function
Minimum level indication with simultaneous shut down of the pump
• Two stage function
First stage early warning annunciation
Second stage will shut down the pump after an additional drop in the fluid level
33 Pro
Min
en
t®
Flow Monitor
The metering monitor is used to monitor the volume per pump stroke by using a plastic encapsulated metal float that is detected by the adjustable proximity sensor. Adjustable from 1-125 strokes. Plugs into front of pump.
34 Pro
Min
en
t®
Typical Accessory InstallationSuction Lift
Injection Valve prevents backflow from pipe
Backpressure/Antisiphon valve provides backpressure for repeatability, prevents siphoning
Pressure gauge allows setting valve pressures
Pulsation dampener reduces head loss, pulsation
Pressure relief valve protects system components
Foot valve/strainer prevents loss of prime, plugging by solids
noelt:
Ken to find different graphic
noelt:
Ken to find different graphic
35 Pro
Min
en
t®
Piping Simulation
• Used for motor driven pumps only
• Shows if you need accessories
• Solves problems BEFORE they happen
• Application will run well
36 Pro
Min
en
t®
Information Necessary• Pump type• Information from the technical data in the
catalog• Chemical being metered• Suction lift • Chemical tank pressure• Size and length of suction and discharge lines• Number of valves and fittings in the lines• Back-pressure• Discharge head