Question 1

The equivalent hydraulic resistance of an entire assembly is always greater than the smallest individual hydraulic resistance.

Accepted Answer

The equivalent hydraulic resistance of an entire assembly can be less than the smallest individual hydraulic resistance when the resistances are arranged in parallel, as the total resistance decreases with the addition of parallel paths.

Question 2

Using pressure gauges to detect changes in the head of a liquid is like using thermometers to detect changes in the thermal energy content of that liquid.

Accepted Answer

Both pressure and temperature are physical properties of a liquid that can indicate changes in the state or condition of that liquid. Pressure is a measure of the force per unit area exerted by a liquid, and changes in pressure can indicate changes in volume, density, or other properties of the liquid. Similarly, temperature is a measure of the average kinetic energy of the particles in a liquid, and changes in temperature can indicate changes in the thermal energy content, phase, or other properties of the liquid. Therefore, using pressure gauges to detect changes in the head (i.e. pressure) of a liquid is analogous to using thermometers to detect changes in the thermal energy content of that liquid.

Question 3

The static pressure at a given depth below the surface of a liquid remains exactly the same regardless of the diameter of the pipe.

Accepted Answer

The static pressure at a given depth in a liquid is determined by the weight of the liquid above that point. The diameter of the pipe does not affect the weight of the liquid above that point, so the static pressure remains the same regardless of pipe diameter.

Question 4

Flow velocity is a measurement of the volume of fluid that passes a given location in a pipe in a given time.

Accepted Answer

Flow velocity refers to the distance a fluid travels per unit time, not the volume of fluid passing a point.

Question 5

The term &#34;flow velocity&#34; is commonly understood to mean the ____ flow velocity of the fluid as it moves through a pipe.&#10;A) pressurized&#10;B) average&#10;C) maximum&#10;D) minimum

Accepted Answer

The term "flow velocity" usually refers to the average velocity of the fluid as it moves through a pipe, rather than the maximum or minimum velocities. The pressurized velocity is not a commonly used term.

Question 6

Copper tubing is also subject to a condition called ____, which can literally scrub metal off the inside wall of a tube or fittings.&#10;A) thermal rusting&#10;B) frictional pressure&#10;C) flow rasping&#10;D) erosion corrosion

Accepted Answer

Erosion corrosion occurs when there is a combination of corrosive fluids and high velocity flow. This can result in the wearing away of the metal surface, leading to leaks or other failures. This is a common issue with copper tubing and fittings in high flow or high pressure systems.

Question 7

After the hydraulic resistances of all devices in a piping assembly are determined, they can be combined into a(n) ____ resistance similar to how electrical resistances are combined in circuit analysis.

A) equivalent
B) combined
C) calculated
D) average

Accepted Answer

The hydraulic resistances can be combined into an equivalent resistance, which is analogous to how electrical resistances are combined in circuit analysis using the concept of equivalent resistance.

Question 8

Whenever a fluid flows, an energy dissipating effect called ____ develops both within the fluid stream and along any surfaces the fluid contacts.&#10;A) viscous friction&#10;B) thermal reduction&#10;C) anti-flow&#10;D) pressure inhibition

Accepted Answer

Viscous friction, also known as fluid friction, is the resistance to motion between the layers of a fluid or between a fluid and a solid surface. This effect produces a loss of energy in the system, which is converted into heat. Therefore, any fluid flow will inevitably experience some level of energy dissipation due to viscous friction. Choices B, C and D are not correct as they do not describe a physical phenomenon related to fluid flow.

Question 9

Each component in a piping assembly or circuit has an associated hydraulic resistance that defines its ability to dissipate thermal energy from the fluid at any given flow rate.

Accepted Answer

Hydraulic resistance in a piping assembly or circuit defines its ability to impede fluid flow, not its ability to dissipate thermal energy. Dissipation of thermal energy is related to thermal resistance, not hydraulic resistance.

Question 10

A pipe size should be selected that keeps the average flow velocity between ____ ft./sec.&#10;A) .5 and .75&#10;B) 1 and 2&#10;C) 1 and 3&#10;D) 2 and 4

Accepted Answer

The answer of A pipe size should be selected that...

Question 11

The piping paths that share common points of connection are said to be piped ____.&#10;A) in parallel&#10;B) in series&#10;C) equivalently&#10;D) co-operatively

Accepted Answer

The answer of The piping paths that share common points...

Question 12

Use of pressure drop charts based on 60&#176; F water will consistently overestimate the pressure drop in hydronic piping circuits because the water will usually be at higher temperatures.

Accepted Answer

The answer of Use of pressure drop charts based on...

Question 13

Fluids in a hydronic system contain both thermal and mechanical energy.The mechanical energy, or ____, present in a fluid depends on several factors including its pressure, density, elevation, and velocity at some point in the system.

A) flow
B) compression
C) head
D) pressure

Accepted Answer

The answer of Fluids in a hydronic system contain both...

Question 14

The simplest piping assemblies are formed by connecting piping components end to end.In some cases, the collection of tubing, fittings, valves, and other components closes on itself to form a ____.&#10;A) multi-resistor system&#10;B) radiant loop&#10;C) series circuit&#10;D) thermal compound

Accepted Answer

The answer of The simplest piping assemblies are formed by...

Question 15

Every piping system should be thought of as having an operating cost as well as an installation cost.

Accepted Answer

The answer of Every piping system should be thought of...

Question 16

In a purely technical sense, the word fluid can mean either a liquid, such as water, or a gas, such as air.

Accepted Answer

The answer of In a purely technical sense, the word...

Question 17

The equivalent length of a component is the amount of tubing, of the same pipe size, that would produce the same head loss (or pressure drop), as the actual component, at the same flow rate.

Accepted Answer

The answer of The equivalent length of a component is...

Question 18

____ represents the relationship between flow rate and head loss for a given piping circuit using a specific fluid at a given temperature.&#10;A) System heat loss coordination&#10;B) System head loss curve&#10;C) System flow equation&#10;D) System flow/loss calculation

Accepted Answer

The answer of ____ represents the relationship between flow rate...

Question 19

A more efficient method can be used in the common situation where the piping circuit contains a(n) ____ of pipe, fittings, and valves.&#10;A) wide variety&#10;B) single size&#10;C) industry standard amount&#10;D) user maintainable

Accepted Answer

The answer of A more efficient method can be used...

Question 20

Determining the flow rates in systems with several parallel branches does not require &#34;number crunching.&#34;

Accepted Answer

The answer of Determining the flow rates in systems with...

Deck 6: Fluid Flow in Piping