4 questions Advanced

ECADEMY test

12 - Applying proportional pressure in water boosting systems

This course test contains 4 questions and can be retaken at any time.

You must answer all questions correctly to pass the test and complete the course.

Question 1 of 4 Advanced

What characterises linear proportional pressure control?

Question 2 of 4 Advanced

In the example provided, how much energy is saved by operating the water boosting system in proportional pressure control mode?

Question 3 of 4 Advanced

What determines the required head or pressure of the pump?

Question 4 of 4 Advanced

In the example provided, what is the annual power consumption when operating in constant pressure mode?

Question 4 of 4 Advanced

Happy with your answers?

Submit your current answers and get the final test result.

Test results

Congratulations. You have passed the test and completed the 12 - Applying proportional pressure in water boosting systems

How would you rate this course?

You are welcome to add your rating of this course. Remember that you have to be logged in before you take the test to be able to give your rating.

Sorry. You did not pass the 12 - Applying proportional pressure in water boosting systems test this time

How would you rate this course?

You are welcome to add your rating of this course. Remember that you have to be logged in before you take the test to be able to give your rating.

Q: What characterises linear proportional pressure control?
A: The booster pump adapts its performance in accordance to the flow rate
Q: What characterises linear proportional pressure control?
A: The booster pump provides a constant pressure regardless of the flow
01: The booster pump adapts its performance in accordance to the flow rate
02: The booster pump provides a constant pressure regardless of the flow Your answer
03: The booster pump provides a flow rate according to the needed pressure
Q: What characterises linear proportional pressure control?
A: The booster pump provides a flow rate according to the needed pressure
01: The booster pump adapts its performance in accordance to the flow rate
02: The booster pump provides a constant pressure regardless of the flow
03: The booster pump provides a flow rate according to the needed pressure Your answer
Q: In the example provided, how much energy is saved by operating the water boosting system in proportional pressure control mode?
A: More than 15%
01: More than 15% Your answer
02: More than 25%
03: More than 30%
Q: In the example provided, how much energy is saved by operating the water boosting system in proportional pressure control mode?
A: More than 25%
01: More than 15%
02: More than 25% Your answer
03: More than 30%
Q: In the example provided, how much energy is saved by operating the water boosting system in proportional pressure control mode?
A: More than 30%
Q: What determines the required head or pressure of the pump?
A: Static pressure loss and required pressure loss at the tap
01: Static pressure loss and required pressure loss at the tap Your answer
02: Static and dynamic pressure losses as well as required pressure at the tap.
03: Dynamic pressure loss as well as required pressure at the tap
Q: What determines the required head or pressure of the pump?
A: Static and dynamic pressure losses as well as required pressure at the tap.
Q: What determines the required head or pressure of the pump?
A: Dynamic pressure loss as well as required pressure at the tap
01: Static pressure loss and required pressure loss at the tap
02: Static and dynamic pressure losses as well as required pressure at the tap.
03: Dynamic pressure loss as well as required pressure at the tap Your answer
Q: In the example provided, what is the annual power consumption when operating in constant pressure mode?
A: 19,000 kWh
01: 19,000 kWh Your answer
02: 25,100 kWh
03: 29,100 kWh
Q: In the example provided, what is the annual power consumption when operating in constant pressure mode?
A: 25,100 kWh
Q: In the example provided, what is the annual power consumption when operating in constant pressure mode?
A: 29,100 kWh
01: 19,000 kWh
02: 25,100 kWh
03: 29,100 kWh Your answer