Third Year Flashcards
The water cycle describes the:
A. Percolation and evaporation of water underground.
B. Movement of water between earth and sky[][][][][][][]]
C. Evaporation of water to form clouds[][][][][][][][][][][][][][]
D. Condensation of water to form rain or snow[][][][][][][]
D. Condensation of water to form rain or snow.
The water that does not seep into the earth immediately is called surface water or:
A. Artesian.
B. Run-off[]]
C. Rainpools.
D. Overburden.
B. Run-off.
Precautions must be taken when using lakes or rivers for drinking water because the water:
A. Can be easily polluted.
B. Is usually acidic[][][][][][][]
C. Is usually alkaline[][][][][]
D. May be soft[][][][][][][][][][]]
A. Can be easily polluted.
Areas where water collects in sand, gravel or cracks in the rock which can be almost any size.
A. Aquifers.
B. Artesia[]]
C. Ogallala.
D. Orifices.
A. Aquifers.
The difference between an artesian spring and other springs is that an artesian spring supplies water that is:
A. At temperatures around 30°C (86°F).
B. Under pressures higher than atmosphere pressure.
C. Very high in beneficial minerals[][][][][][][][][][][][][][][][][][][]]
D. Enough to serve the needs of a standard single family.
B. Under pressures higher thatn atmosphere pressure.
Natural springs used as a water source can be protected from contamination by installing a:
A. Water filter.
B. Water tower.
C. Spring box[]]
D. Pitless adapter.
C. Spring box.
An unusual but often successful method used to locate a potential source of water is
A. Tarot card readings.
B. Dowsing or divining.
C. Monitoring drill vibrations.
D. Using magnetic resonance imaging devices.
B. Dowsing or divining.
The uppermost level of groundwater that collects above bedrock is known as:
A. Zone of penetration.
B. Aqueduct[][][][][][][][][][]
C. Water table[][][][][][][][]]
D. Saturation table[][][][]
C. Water table.
Well or spring water for domestic use is often collected and stored in:
A. Pitless adaptors.
B. Cisterns[][][][][][][]]
C. Plastic-lined ponds.
D. Buckets[][][][][][][][][][]]
B. Cisterns.
A source of pollution must be:
A. Uphill from a well.
B. Downhill from a well.
C. More than 1.5 m (5’) away from a well.
D. More than 6 m (20’) away from a well.
B. Downhill from a well.
What is one of the primary considerations when selecting the type of well that will be constructed?
A. Soil conditions at the well site.
B. Type of well cap desired[][][][][]]
C. Type of well pump[][][][][][][][][][][]]
D. Whether the well will supply potable or non-potable water.
A. Soil conditions at the well site.
A percussion cable tool rig would be used to establish a:
A. Drilled well.
B. Dug well[][]]
C. Jetted well[]
D. Bored well[]
A. Drilled well.
Driven wells are established by pounding sections of pipe tipped with:
A. Diamond drill.
B. Power augers.
C. Point/screen assemblies.
D. Casing/screen units[][][][]]
C. Point/screen assemblies.
A well that is established by directing high-pressure streams of water into the well hole is known as:
A. Hydra-drive well.
B. Jetted well[][][][][]]
C. Bored well[][][][][]]
D. Jet-drilled well[][]
B. Jetted well.
When a well has been established and is ready for pump and piping, a well log should be available that:
A. Details each step of the process.
B. Contains maintenance information for well fittings.
C. Shows important water levels and physical details of the well.
D. Lists the type of pump suitable for the depth and yield of the well.
C. Shows important water levels and physical details of the well.
Well points are a special fitting used in:
A. Shallow or deep wells.
B. Driven or jetted wells[]
C. Artesian or pumped wells.
D. Drilled or bored wells[][][][]
B. Driven or jetted wells.
Well screens are a special fitting installed:
A. In the aquifer.
B. At the well head.
C. Below the frost line.
D. To allow water to seep in from the top soil.
A. In the aquifer.
Well casings prevent the sides of the well from collapsing, provide a reservoir for water and:
A. Condition the water supply.
B. Provide easy access for servicing.
C. Support above ground pumps or well caps.
D. Prevent contamination of the well water[][][]]
D. Prevent contamination of the well water.
Jet lances create a well hole by:
A. Compressed air and downward pressure.
B. Downward pressure and auguring[][][][][][][]
C. Downward pressure and water erosion[][]
D. Suction and auguring[][][][][][][][][][][][][][][][][][]
C. Downward pressure and water erosion.
Where a submersible pump is used, you should install a:
A. Pump house.
B. Sloped concrete cap.
C. Pit with a removable cover.
D. Pitless adapter[][][][][][][][][][][]
D. Pitless adapter.
An example of a positive displacement well pump is a:
A. Jet pump.
B. Piston pump.
C. Pressure tank.
D. Submersible pump.
B. Piston pump.
Any pump that moves water through the action of impellers is called a:
A. Centrifugal pump.
B. Positive displacement pump.
C. Pressure control pump[][][][][]]
D. Motor-driven pump[][][][][][][][]]
A. Centrifugal pump.
The reciprocating pump that supplies bursts of water on its forward and its backward stroke is called:
A. Double-acting.
B. Multi-stage[][][]
C. Two-position[]]
D. Kinetic[][][][][][][]
A. Double-acting.
A jet pump moves water by using:
A. Air displacement.
B. Compression[][][]]
C. Centrifugal force.
D. Reciprocation[][][]
C. Centrifugal force.
Water flowing through a venturi tube inside an ejector:
A. Loses pressure and velocity.
B. Is supplied in greater volumes to the impellar inlet.
C. Increases in velocity and acts to supercharge the flow to the impellar.
D. Increases volume to ensure a continual supply to the impellar[][][][][][][]
C. Increases in velocity and acts to supercharge the flow to the impellar.
A diffuser or volute casing is used in a centrifugal pump to:
A. Slow the water flow and increase pressure.
B. Distribute the water to steady the discharge supply.
C. Increase the water velocity and decrease the pressure.
D. Slow the water and decrease the pressure[][][][][][][][][][][]]
A. Slow the water flow and increase pressure.
The main difference between a shallow well jet pump and a deep well jet pump (aside from their differing abilities to lift water) is:
A. The size of the motor.
B. The location of the ejector.
C. The curvature of the volute casing.
D. The distance the pump can be offset from the well head.
B. The location of the ejector.
A submersible pump can lift water from very deep wells because:
A. It has a supercharger on the inlet side.
B. The pump is so close to the source of water.
C. It is a multi-staged centrifugal pump[][][][][][][][]
D. It has a double-acting piston[][][][][][][][][][][][][][]]
C. It is a multi-staged centrifugal pump.
To make sure enough water is driven down the return line to the ejector in a jet pump, you can use a:
A. Pressure guage.
B. Control valve[][][]
C. Venturi tube[][][]]
D. Wye housing[]][]
B. Control valve.
A submersible pump requires multiple impellars because the water velocity that can be developed is limited by the:
A. Small diameter of the impellars.
B. Increased pressure in the bottom of a well.
C. Lower pressure in the bottom of the well[][]]
D. Length of the pump casing[][][][][][][][][][][][][][][]
A. Small diameter of the impellars.
Screens are installed on the intake pipe of a pump to:
A. Prevent dirt and debris from entering the pump.
B. Speed up the water as it enters the pump[][][][][]]
C. Isolate the pump during repairs[][][][][][][][][][][][][][][]
D. To prevent anyone from putting their hands into the pump.
A. Prevent dirt and debris from entering the pump.
The purpose of a foot valve is to:
A. Support the pump.
B. Prevent water from entering the pump during repairs.
C. Support the ejector of a deep well jet pump[][][][][][][][][]
D. Maintain water in the pump intake line[][][][][][][][][][][][][][]
D. Maintain water in the pump intake line.
A pressure tank provides storage capacity, maintains pressure in the water supply system and:
A. Acts as a backflow preventer.
B. Minimizes wear on the pump[]
C. Offers a convenient point to test water quality.
D. Water to be recirculated to the ejector inlet[][]]
B. Minimizes wear on the pump.
The pressure switch that causes the pump to cut in and cut out generally has a pressure differential of:
A. 10 psi.
B. 15 psi.
C. 20 psi.
D. 25 psi.
C. 20 psi.
Over time, the air molecules inside galvanized steel pressure tanks will begin to absorb into the water, causing:
A. Effervescence at the discharge pipe.
B. Decreasing pressures within the tank.
C. Increased cycling of the pump[][][][][][][]
D. The air-volume control to malfunction.
C. Increased cycling of the pump.
Many pump manufacturers recommend that check valves be installed at:
A. Every change in direction of the piping run.
B. At least every 15 m (50’) along the suction piping.
C. The beginning and end of the intake piping[][][][][]]
D. The top of the well[][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. The top of the well.
Before initial start-up, most centrifugal and reciprocating pumps must be:
A. Primed with clean water.
B. Thoroughly lubricated[][]
C. Primed with oil[][][][][][][][]]
D. Blown clean with an air hose.
A. Primed with clean water.
Air-volume controls are not required on pressure tanks that have:
A. A capacity of more than 227 L (60 US gallons).
B. An internal bladder or diaphram[][][][][][][][][][][][][]]
C. Snifter valves installed[][][][][][][][][][][][][][][][][][][][][][]
D. A galvanized coating[][][][][][][][][][][][][][][][][][][][][][][]]
B. An internal bladder or diaphram.
Submersible pump motors are less likely to overheat during load conditions because:
A. Of their mechanical linkage design.
B. Water is constantly cooling the motor.
C. They are self-priming[][][][][][][][][][][][][][][]
D. All internal parts are copper-plated[][]
B. Water is constantly cooling the motor.
The force that moves water from a well through the suction pipe to the inlet of the jet pump is:
A. Static suction pressure.
B. Atmospheric pressure[]
C. The difference between suction pressure and discharge pressure.
D. Net positive suction head[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
B. Atmospheric pressure.
In theory, the maximum suction lift of a pump is:
A. 7.6 m (25’).
B. 10 m (34’)[]
C. 12 m (39’)[]
D. 15.2 m (50’)
B. 10 m (34’).
The maximum practical suction lift of a pump is:
A. 7.6 m (25’).
B. 10 m (34’)[]
C. 12 m (39’)[]
D. 15.2 m (50’).
A. 7.6 m (25’).
The maxium practical suction lift of a pump is affected by mechanical losses in the pump, friction losses and the:
A. Depth of the well.
B. Placement of the suction pipe.
C. Elevation above sea level[][][][]]
D. Drawdown level[][][][][][][][][][][][][]
C. Elevation above sea level.
The friction losses that occur in piping runs are determined by the pipe diameter, total length of piping, the rate and volume of flow through the piping and the:
A. Diameter and depth of the well.
B. Size of the pump outlet and motor.
C. Age of the pipe and what it is made of.
D. Viscosity and temperature[][][][][][][][][][][]
C. Age of the pipe and what it is made of.
For a fixed length of piping, as pipe diameters increase friction losses will:
A. Decrease.
B. Increase[][]
C. Decrease at 0.08 m (0.25’) for every 0.8 m (1/4”) diameter increase.
D. Increase at 0.08 m (0.25’) for every 0.8 m (1/4”) diameter increase[]
A. Decrease.
The vertical distance that water travels from the water level in the well to the highest supply point plus the friction losses that occur as water flows through piping and fittings plus the pressure at the supply points equals the:
A. Total head.
B. Dynamic head.
C. Net positive suction.
D. Delivery head[][][][][]]
A. Total head.
Pump curves supplied by pump manufacturers illustrate the:
A. Performance characteristics of pumps.
B. Relative costs of different pumps[][][][][]
C. Optimum length and size of piping[][][]]
D. Capacity required for standard households.
A. Performance characteristics of pumps.
A simple method of estimating household demand and selecting the appropriate pump is to:
A. Count the number of people and multiply by 10 USGPM.
B. Allow 100 gallons per day per bathroom[][][][][][][][][][][][][][]]
C. Count the number of fixtures and multiply by 1 USGPM[]]
D. Allow 10 gallons per fixture, multiply by the number of bathrooms and divide by the number of stories.
C. Count the number of fixtures and multiply by 1 USGPM.
A way of estimating peak demands for farms and ranches is to calculate the estimated daily consumption and:
A. Divide by 120 minutes.
B. Double it[][][][][][][][][][][][]]
C. Divide by the number of fixtures or faucets.
D. Divide by 24 hours and multiply by 30 minutes.
A. Divide by 120 minutes.
Pumping a new well clear of dirt or cuttings from drilling is known as:
A. Priming.
B. Drawdown.
C. Developing.
D. Suctioning[]
C. Developing.
Why might you check the date on the well driller’s log before installing a pump?
A. To check if the well water needs to be treated.
B. To determine if a second well analysis is needed.
C. Because water levels can fluctuate widely as seasons change.
D. To ensure that the well dimensions are accurate and the pump will fit.
C. Because water levels can fluctuate widely as seasons change.
The foot valve on a shallow well jet pump should be positioned:
A. At least 0.9 m (3’) below pumping level of the well.
B. At least 0.3 m (1’) below the maximum drawdown level.
C. At least 0.9 m (3’) from the bottom of the well[][][][][][][][][]
D. At least 0.3 m (1’) above the static level[][][][][][][][][][][][][][]]
C. At least 0.9 m (3’) from the bottom of the well.
A submersible pump is generally lowered into the well until it is positioned:
A. At least 25 cm (10”) from the well casing.
B. At least 30 cm (12”) below the static level.
C. At least 0.9 m (3’) below pumping level of the well.
D. At least 0.3 m (1’) from the bottom of the well[][][][][]]
C. At least 0.9 m (3’) below pumping level of the well.
Why should you connect the first section of riser pipe to the discharge outlet of the pump very carefully?
A. To prevent damage to the pump casing.
B. To ensure that the pump remains aligned with piping.
C. So that the pressure switch will not require adjustment.
D. To prevent damage to the check valve in the discharge chamber.
D. To prevent damage to the check valve in the discharge chamber.
Drop cables on submersible pumps are protected from damage by:
A. Securing cable at intervals to the riser pipe.
B. Inserting neoprene sleeves inside the well casing.
C. Clipping cable to the well casing[][][][][][][][][][][][][][][][]]
D. Running cable inside a protective tubing[][][][][][][][]]
A. Securing cable at intervals to the riser pipe.
You should never lower a pump and piping into a well before:
A. Sealing the well head.
B. Disinfecting the well[][]
C. Securing a safety cable to the pump.
D. Testing the pump motor and discharge.
C. Securing a safety cable to the pump.
Before completing the installation of a submersible pump you should check the:
A. Rotation and current unbalance of the motor.
B. Check valve in the discharge side of the pump.
C. Diameter of the well casing[][][][][][][][][][][][][][][][][][]
D. Supply pressures required at the house[][][][][][]
A. Rotation and current unbalance of the motor.
Before completing the installation of a shallow well jet pump you should:
A. Prime the pump.
B. Close the control valve.
C. Test the pressure guage.
D. Install a ground fault circuit interrupter.
A. Prime the pump.
If you are installing a diaphram or bladder pressure tank, before you fill it with water you should check that the pressure in the tank is:
A. Equal to the highest pressure switch setting.
B. Lower than the reading on the pressure guage.
C. Equal to the lowest pressure switch setting[][][][]
D. Higher than the supply pressure required[][][][][]
C. Equal to the lowest pressure switch setting.
When you are asked to solve an operating problem in a pumping system, where should you start?
A. Work from simplest to most complex solution.
B. Work from the suction side to the discharge side of the pump.
C. Always start with the pump motor and drive system[][][][][][][][][][]
D. Always check pump and pipe sizing first[][][][][][][][][][][][][][][][][][][]]
A. Work from simplest to most complex solution.
To check the suctioin lift of a shallow well jet pump, you would install the vacuum gauge:
A. On the discharge outlet of the pump.
B. In the primer plug opening[][][][][][][][][]]
C. Between the ejector and the pump suction inlet.
D. Between the foot valve and the ejector inlet[][][][]
C. Between the ejector and the pump suction inlet.
If your shallow well jet pump is only producing a very low flow of water, and a vacuum gauge test resulted in a high gauge reading, you would look for:
A. An air lock in the pump.
B. Plugged strainer or foot valve.
C. A plugged relief valve on the discharge side.
D. A worn impellar[][][][][][][][][][][][][][][][][][][][][][][][][][][]
B. Plugged strainer or foot valve.
If you turn on your deep well jet pump and it won’t start, what would you look for first?
A. An air lock in the pump.
B. A blown fuse[][][][][][][][][][]
C. An oil leak[][][][][][][][][][][][]
D. Improperly primed pump.
B. A blown fuse.
A pressure tank that is waterlogged (air pressure too low because air is being absorbed in water) would cause:
A. The pump to cycle too often.
B. The diaphram in the pressure switch to burst.
C. An oil leak[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. An air lock in the pump[][][][][][][][][][][][][][][][][][][][]
A. The pump to cycle too often.
A pressure tank that is airbound (air pressure too high) would cause:
A. The pump to cycle too often.
B. The faucets in the supply line to burp.
C. Air bubbles to seize the air-volume control.
D. The pump to run backwards[][][][][][][][][][][][][]]
B. The faucets in the supply line to burp.
If the cylinder check valve in a deep well reciprocating pump were jammed open, you would notice:
A. Low supply or no supply with the pump running.
B. Burping faucets in the supply system[][][][][][][][][][]
C. The discharge pipe would begin to shudder[][][]]
D. The pump would overheat[][][][][][][][][][][][][][][][][][][]]
A. Low supply or no supply with the pump running.
A defective pressure switch on a piston pump would cause:
A. The piston to complete only half its forward stroke.
B. The valves inside the pump chamber to wear out quickly.
C. The pump to run noisily[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. The pump to start and stop too frequently[][][][][][][][][][][][][]]
D. The pump to start and stop too frequently.
If the impellars in a submersible pump wear and there is too much clearence between the impellar and the housing, what might you notice?
A. Pump will not shut off.
B. Pump will not start[][][]
C. The discharge pipe would begin to shudder.
D. Sudden increase in water flow[][][][][][][][][][][][]]
A. Pump will not shut off.
If you have to pull a submersible pump to replace a worn component, you should take the opportunity to:
A. Send the motor out for a complete tune-up.
B. Ensure that all connections are tight and there are no leaks.
C. Test the pump’s operating pressure and capacity[][][][][][][][][][]
D. Flush the well clear of sand and debris[][][][][][][][][][][][][][][][][][][]
B. Ensure that all connections are tight and there are no leaks.
True or False?
Repairing pump components is always the most economical solution although many pump manufaturers encourage you to replace parts instead.
False.
Before you repair or replace a foot valve that is stuck open, you should close the valve on the suction side of the pump so that:
A. The pump cannot turn on and draw in more water.
B. The prime of the pump is maintained[][][][][][][][][][][][]
C. You can drain water out of the suction pipe before removing it.
D. Suction pressure is removed and the foot valve may close[][][]]
B. The prime of the pump is maintained.
You hold the foot valve upright and pour water in the opening. If water does not flow out the bottom of the valve, you would know that:
A. The valve spring is faulty.
B. The valve disk is worn[][]]
C. Dirt has jammed the spring or disk.
D. The foot valve is not faulty[][][][][][][]]
D. The foot valve is not faulty.
A common solution to a malfunctioning pressure switch is to:
A. Clean the contact points inside the switch box.
B. Replace the contacts inside the switch box[][][]]
C. Replace the pressure tank with a larger capacity tank.
D. Re-adjust the connection to the pressure tank[][][][][][][]
A. Clean the contact points inside the switch box.
An indication that the diaphram in the air-volume control had ruptured would be a:
A. Stuttering pump.
B. Sure in water flow.
C. Leak at the air-volume control on the tank.
B. Sudden drop in pump discharge pressure.
C. Leak at the air-volume control on the tank.
If the air-volume control on a centrifugal tank malfunctions, you would check the air-volume control box and:
A. Discharge pressure from the tank.
B. The air flow through the orifice[][][]
C. For leaks at the inlet and outlet of the tank.
D. An overheated pump[][][][][][][][][][][][][][][][][][][][]
B. The air flow through the orifice.
When you remove a malfunctioning ejector from a jet pump, what would you check first when deciding whether to repair or replace it?
A. The ratio of the throat area to the length of the ejector.
B. Alignment of the venturi tube[][][][][][][][][][][][][][][][][][][][][][][]
C. For plugs in the venture tube[][][][][][][][][][][][][][][][][][][][][][][]
D. Corrosion damage at the inlet to the ejector[][][][][][][][][]
C. For plugs in the venture tube.
If you decide to repair worn impellar vanes, before welding or patching the vane you should:
A. Run the pump dry.
B. Close isolation valves on both sides of the pump.
C. Flush the ejector[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. Grind away the spongy metal on the surface[][][][]
D. Grind away the spongy metal on the surface.
Clean the contact points of a pressure switch with:
A. Emery cloth.
B. Toothbrush[]
C. Soap[][][][][][]]
D. Vinegar and water solution.
A. Emery cloth.
The device which allows fresh air into the air-volume control assembly is the:
A. Orifice.
B. Float arm.
C. Snifter valve.
D. Expanding diaphram.
C. Snifter valve.
A dishwashing or food or preparation sink has what type of overflow?
A. Concealed overflow.
B. Standing overflow[][]]
C. Direct waste and overflow.
D. Indirect waste and overflow.
B. Standing overflow.
The discharge of a garburator or food waste disposal connects to the sanitary drainage system:
A. Always using a grease interceptor.
B. Never using a grease interceptor[]]
C. Only as indirect connection[][][][][][][]
D. Never connects to the sewar system because of the solid waste.
B. Never using a grease interceptor.
Where is there a requirement that a hand washing station be installed in all food preparation areas?
A. National Plumbing Code of Canada.
B. Public Health Act[][][][][][][][][][][][][][][][][]
C. Canadian Standards Association[][][]]
D. American Water Works Association[]
B. Public Health Act.
Which two dimensions are indicated on a floor plan?
A. Width and length.
B. Length and height.
C. Width and height[]]
D. Length and angle.
A. Width and length.
How can you best visualize a mechanical drawing?
A. By plotting the fixtures on a drawing.
B. By finding the overall dimensions[][][]
C. By sketching a mechanical plan view.
D. By sizing all the piping on a drawing[]
C. By sketching a mechanical plan view.
Which drawing distorts the angles to give a better visual perspective?
A. Orthographic drawing.
B. Isometric drawing[][][][]
C. Mechanical drawing[][]
D. Plan view drawing[][][]]
B. Isometric drawing.
When choosing materials for a sump pump system, your fittings:
A. Will be rated to be at least equal to the operating pressure.
B. WIll be rated for two times operating pressure[][][][][][][][][][][][]
C. Will not need a pressure rating[][][][][][][][][][][][][][][][][][][][][][][][][][]
D. Will be designed to withstand one and a half times maximum pressure.
D. Will be designed to withstand one and a half times maximum pressure.
What material choices should be made if acid and corrosive waste is present in a drain?
A. Corrosive-resistant materials must be used.
B. All drainage fittings are corrosive resistant and are not an issue.
C. As long as you have adequate grade for proper drainage you do not require corrosive-resistant materials.
D. There are no special corrosive resistant materials available for drain, waste or vent systems[][][][][][][][][][][][][][]
A. Corrosive-resistant materials must be used.
Why would you need to protect water service piping by means of check valve?
A. If the water service piping material is rated for cold-water service only, care must be taken to protect it from expanded hot water.
B. Protection from using a check valve is for back siphonage only[][][][][][][][][][][][][][][]
C. You do not require check valve on water service piping, as it is a closed system.
D. You do not require a check valve on water service piping, as hot water will never expand enough to reach the service piping.
A. If the water service piping material is rated for cold-water service only, care must be taken to protect it from expanded hot water.
Why is caulked lead joint not allowed for use on a potable water system?
A. Caulked lead joints are not able to withstand the pressure of a potable water system and lead will dissolve in water and pose a grave health hazard.
B. The oakum used on a lead joint creates the health hazard and therefore is the reason for not allowing caulked lead joints.
C. There is no problem in using caulked lead joints for potable water distribution[][][][][][][][][][][][][][][][][][][][][][][][][][]
D. Caulked lead is used on cast iron piping and it is the leaching of iron from the cast iron that poses the health threat.
A. Caulked lead joints are not able to withstand the pressure of a potable water system and lead will dissolve in water and pose a grave health hazard.
How can linear expansion or contraction be prevented in pipe?
A. Linear expansion and contraction can be prevented in all piping by always anchoring both ends of the pipe.
B. Linear expansion cannot be stopped or prevented in pipe, but it can be directed and controlled.
C. We need not be concerned with linear expansion or contraction in piping, as the coefficients are such a minimal amount they would not add up to anything.
D. Linear expansion and contraction cannot be measured, so prevention is not required.
B. Linear expansion cannot be stopped or prevented in pipe, but it can be directed and controlled.
Where does an indirectly connected fixture drain terminate?
A. Termination of the drain is always by connection to the building sewer using only elastomeric compound couplings.
B. Termination of the drain must be at least 25 mm below the flood level rim of the directly connected fixture drain.
C. Termination of the drain must be above the flood level rim of a directly connected fixture drain by means of an air break.
D. It does not matter where you terminate an indirectly connected fixture drain because there is no ridgid piping used in the termination point.
C. Termination of the drain must be above the flood level rim of a directly connected fixture drain by means of an air break.
Which method of backflow prevention is the best possible choice?
A. Double check valve assembly.
B. Pressure vacuum breaker assembly.
C. Dual check valve backflow preventer.
D. Air gap[][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. Air gap.
At what point on an atmospheric vacuum breaker is the critical level?
A. The lowest point on the device, unless otherwise marked on the device.
B. The top of the poppet is considered to be the critical level[][][][][][][][][][][][]]
C. The centreline of the outlet shall be deemed the critical level[][][][][][][][][][]
D. The top of the atmospheric vent cap is the critical level[][][][][][][][][][][][][][][]
A. The lowest point on the device, unless otherwise marked on the device.
What are the three degrees of hazard when choosing a cross-connection control device?
A. Extreme, Moderate, Passive.
B. Severe, Moderate, Minor[][][]
C. Excessive, Moderate, Unlikely.
D. Insignificant, Unlikely, Minor[][]
B. Severe, Moderate, Minor.
What is the correct method for calculating the total hydraulic load on a drainage system?
A. The hydraulic load is the sum of only the connected fixtures to the drainage system.
B. The hydraulic load will be the sum of all fixtures plus any roof or paved surfaces that may use the drainage system, but does not include any future fixtures.
C. The hydraulic load will be the sum of all fixtures connected plus future fixtures and any roof or paved surfaces that may use this drainage system.
D. The hydraulic load will be the sum of all fixtures plus future fixtures, but never drainage from any roof or paved surfaces that may use this drainage system.
C. The hydraulic load will be the sum of all fixtures connected plus future fixtures and any roof or paved surfaces that may use this drainage system.
What is the correct method of sizing DWV piping within a building?
A. The top-down method, in which all piping is sized starting from the roof terminal and working toward the building sewer.
B. The bottom-up method, in which all piping is sized starting from the building sewar where it enters the building and progressing toward the roof terminal.
C. Size the piping for groups of fixtures and then size the common piping[][][][][][][][]
D. All of the above are methods used in sizing DWV piping within a building[][][][][][]
D. All of the above are methods used in sizing DWV piping within a building.
What will effect the maximum permitted hydraulic load drained to a sanitary building drain or sewar?
A. The size of the connected branches.
B. The slope of the drain or sewar[][][][]]
C. The number of floors on which fixtures are installed.
D. The number of floors on which fixtures are installed only when serving as a combined sewar.
B. The slope of the drain or sewar.
What is the maximum temperature allowed for discharge into a drainage system of a clear water waste or sewage?
A. 77°C or 171°F.
B. 75°C or 167°F.
C. 77°C or 167°F.
D. 75°C or 171°F.
B. 75°C or 167°F.
What is the main reason for sanitizing?
A. To use more heat.
B. To use more chemicals.
C. To destroy and prevent organisms that may be present on equipment or utensils after cleaning.
D. To dispose of food particles[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]]
C. To destroy and prevent organisms that may be present on equipment or utensils after cleaning.
What does the acronym NSF represent with regard to sanitizing equipment?
A. National Science Foundation.
B. National Sanitation Foundation.
C. National Sports Center[][][][][][][]]
D. National Standard Format[][][][]]
B. National Sanitation Foundation.
Why would the installation of plumbing fixtures have to conform to the Alberta Building Code?
A. It is not a requirement; installation of plumbing fixtures must only conform to the Alberta Building.
B. The requirements for fire protection, occupant safety, accesibility, lighting and ventilation must be adhered.
C. They only have to conform when urinals are installed[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]]
D. They only have to conform if future developments are likley[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
B. The requirements for fire protection, occupant safety, accesibility, lighting and ventilation must be adhered.
Do all fixtures need to be installed in such a manner that they will be readily accessible for use, cleaning and maintenance?
A. No; Only floor-mounted fixtures excluding grease traps.
B. No; Only wall-mounted fixtures[][][][][][][][][][][][][][][][][][][][][][][]
C. Yes; All fixtures, including grease interceptors, will be installed in such a manner that they could be readily accessible for use, cleaning and maintenance.
D. No; All fixtures, except grease interceptors, will be installed in such a manner that they would be readily accessible for use, cleaning and any possible maintenance.
C. Yes; All fixtures, including grease interceptors, will be installed in such a manner that they could be readily accessible for use, cleaning and maintenance.
Why is it necessary to anchor a water closet to a floor or wall by means of a flange?
A. It is not required as long as the water closet is firmly attached to the floor flange.
B. This ensures that the water closet will be stable and secure and will not allow for any unnecessary strain that may be transmitted to the piping.
C. Water closets are anchored to make a watertight seal[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
D. It is not required as long as the water closet is firmly attached to the wall flange[][][][][][][][][][][][][][][][][][][][][][][][]
B. This ensures that the water closet will be stable and secure and will not allow for any unnecessary strain that may be transmitted to the piping.
What is the maxium recommended flow velocity for cold water through copper tube?
A. 3.0 m/s (10 ft/s).
B. 2.4 m/s (8ft/s)[][]
C. 1.5 m/s (5ft/s)[][]]
D. 1.2 m/s (4ft/s)[][]
B. 2.4 m/s (8ft/s).
Which type of faucet requires the most maintenance?
A. Washer.
B. Washerless.
C. Ball[][][][][][][]]
D. Cartridge[][]
A. Washer.
Which type of faucet is generally used for residential lawn services?
A. Standard or two-handle.
B. Single lever[][][][][][][][][][][]
C. Frost-free[][][][][][][][][][][][][]
D. Metering[][][][][][][][][][][][][]]
E. Electronic[][][][][][][][][][][][]]
C. Frost-free.
Which type of faucet is least likely to be used in a residential application?
A. Standard or two-handle.
B. Single lever[][][][][][][][][][][]
C. Frost-free[][][][][][][][][][][][][]
D. Metering[][][][][][][][][][][][][]
E. Electronic[][][][][][][][][][][][]
E. Electronic.
Which two (2) styles of faucets use seals held in place with the aid of a spring to prevent water leakage through the faucet?
Ball.
Washerless.
What must be done prior to working on any faucet?
Turn off the water to both hot and cold water supplies.
Referring to the figure below, what is the name of A?
Stem Assembly Cartridge.
Referring to the figure below, what is the name of B?
Spline.
Referring to the figure below, what is the name of C?
Stem.
Referring to the figure below, what is the name of D?
Bonnet Seal.
Referring to the figure below, what is the name of E?
Bibwasher.
Referring to the figure below, what is the name of F?
Brass Seat.
What is the advantage of using a plastic nut and washer rather than a steel nut and washer for fastening atwo-handle faucet to the fixture?
If the faucet should leak around the stem, a plastic nut and washer will not deteriorate as a metal nut and washer would.
What is attached to a shower valve to aid in correct positioning of the valve?
Plaster guard.
In what two configurations are bibb washers manufactured?
Bevel.
Flat[][]
What does the bibb washer close against in most washer-style faucets?
Brass Seat.
Why is it important that the bibb washer fit into the retaining cup on the faucet stem?
The retaining cup may split or expand upon tightening or when the bibb washer is compressed during usuage, causing damage to the stem or internal damage to the faucet.
How can you tell if the brass seat in a washer-style faucet is replaceable?
The opening that the washer seats against will be hexagonal or square.
What causes wire drawing of a brass seat?
A fine spray of water passing between the bibb washer and the surface of the brass seat.
What is used to direct water flow from the kitchen faucet to the vegetable spray?
Diverter.
Pliers should not be used on which type of faucet surfaces?
Chrome.
Special finishes.
The National Plumbing Code of Canada stipulates that shower valves must be restricted to what maximum flow temperature?
49°C (120°F).
The cold water supply control must be on the ____ side and the hot water control must be on the ____ side.
Right.
Left[]]
What are the three (3) traditional types of flush valves used on urinals and water closets?
Diaphram.
Metering[]
Piston[][][]]
What is the minimum size of supply line required for metering flush valves on urinals?
1/2”.
What is the minimum size of supply line required for diaphram flush valves used on urinals?
3/4”.
What is the minimum size of supply line required for piston flush valves for use on urinals?
1”.
What is the minimum water supply pressure for piston or diaphram flush valves for use on urinals?
100 kPa (15 psi).
What is the minimum water supply pressure for piston or diaphram flush valves for use on water closets?
100 kPa (15 psi).
According to the National Code of Canada, what is the maximum pressure that a flush valve can be operated under?
550 kPa (80 psi).
What size of outlet tube is required from a flush valve for connection to a urinal?
3/4”.
What size of outlet tube is required from a flush valve for connection to a water closet?
1 1/2”.
What is used to signify the flush volumes of various diaphrams and piston assemblies?
Colour coding.
What is the most likely cause if a diaphram flush valve flushes too long or fails to shut off?
The bypass hole in the diaphram assembly is dirty or plugged.
What is the most likely cause if a piston flush valve flushes too long or fails to shut off?
The piston is not seating properly or the bypass orifice is clogged with foreign matter.
Electronic flush valves are powered by what source?
Batteries.
List three (3) materials used to manufacture jet tubs.
Acrylic.
Enamalled Cast Iron.
Fiberglass[][][][][][][][][]]
How are pumps sized for jet tubs?
By the size and number of jets.
How many jets can be found in a standard water-pumped jet bathtub?
4 to 12.
What device is used with the pump to produce the rate of flow through the jets?
Air Volume Switch.
What size of drain is required for a jet tub?
1 1/2” minimum.
Do jet tubs require ground fault breakers?
A. Yes.
B. No[]
Yes.
List five (5) materials used to make bar sinks.
Cast Iron.
China[][][]
Enamelled Steel.
Fiberglass[][][][][]]
Stainless Steel[]]
What is another name for a bar sink?
Entertainment sink.
What size of drain is required for a bar sink?
1 1/2”.
Bidets are made out of what type of material?
Vitreous china.
What type of trap do bidets have?
A. Integral trap.
B. Exposed trap.
B. Exposed trap.
Referring to the figure below, what is the name of number 1?
Corporation main stop.
Referring to the figure below, what is the name of number 2?
Gooseneck or
Settlement loop.
Referring to the figure below, what is the name of number 3?
Curb cock extension.
Referring to the figure below, what is the name of number 4?
Curb cock chair.
Referring to the figure below, what is the name of number 5?
Building/Master/Main shut-off valve.
Referring to the figure below, what is the name of number 6?
Corporation curb cock.
Referring to the figure below, what is the name of number 7?
Water meter.
