2.) A pumping system is proposed to lift water from a storage tank at an elevation of 2108-feet. The pump is at an eleva...
2.) A pumping system is proposed to lift water from a storage tank at an elevation of 2108-feet. The pump is at an elevation of 2122-feet. The two storage tanks are connected through a 3250-foot, 12-inch diameter pipeline. If the friction factor of the pipeline is 0.020, what is the system curve equation?
Homework Answers
Add Answer to:
2.) A pumping system is proposed to lift water from a storage tank at an elevation of 2108-feet. The pump is at an eleva...
4.) A pumping system is designed to pump from a storage reservoir located at an elevation of 2030 feet. The pump elevati...
4.) A pumping system is designed to pump from a storage reservoir located at an elevation of 2030 feet. The pump elevation is 2015 feet. The pump discharge flowrate is 4200 gpm and the water temperature is 80˚ F. Between the storage tank and the pump is 25 feet of 12-inch DIP pipe (f = 0.014) with one (1) rounded entrance (Kent = 0.25) and two (2) 45-degree bends (Kbend = 0.20). What is the NSPHA for this system?
A pumping system is designed to pump from a storage reservoir located at an elevation of...
A pumping system is designed to pump from a storage reservoir located at an elevation of 1015 feet. The pump elevation is 1005 feet. The pump discharge flowrate is 4500 gpm and the water temperature is 100˚F (1 atm). Between the storage tank and the pump is 30 feet of 14-in DIP pipe (f = 0.018) with one rounded entrance (kent = 0.05), and two 45 -degree bends (k45 = 0.30). What is the NPSH (in ft) for this system?...
A pumping system is designed to pump from a storage reservoir located at an elevation of...
A pumping system is designed to pump from a storage reservoir located at an elevation of 1015 feet. The pump elevation is 1005 feet. The pump discharge flowrate is 4500 gpm and the water temperature is 100°F (1 atm). Between the storage tank and the pump is 30 feet of 14-in DIP pipe ( = 0.018) with one rounded entrance (k = 0.05), and two 45 -degree bends (k = 0.30). What is the NPSH (in ft) for this system?...
A water supply system draws from a river at an elevation of 800-feet and delivers the...
A water supply system draws from a river at an elevation of 800-feet and delivers the water to a storage reservoir at elevation 820-feet. The supply pipeline is a 1000-foot long, 10-inch diameter, cast iron pipe. A single pump with the pump characteristic curve in Figure 1 is used to fill the reservoir. Determine: a) Sketch the system described in the problem statement. b) Inlet and outlet minor loss coefficients, cite your source of minor loss coefficients. c) The roughness...
Problem 1 (25 points) A pumping system is designed to pump from a storage reservoir located...
Problem 1 (25 points) A pumping system is designed to pump from a storage reservoir located at an elevation of 1015 feet. The pump elevation is 1005 feet. The pump discharge flowrate is 4500 gpm and the water temperature is 100°F (1 atm). Between the storage tank and the pump is 30 feet of 14-in DIP pipe (f =0.018) with one rounded entrance (kent = 0.05), and two 45 -degree bends (kas = 0.30). What is the NPSH (in ft)...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as shown below (not to scale). The flow rate is controlled by two gate valves, the gate valve I controls the main pipeline, while the gate valve II controls the loop line from T-joint A to T-joint B. All pipes are galvanized steel pipe of diameter D = 4 in. It has a total length of Li2= 620 ft from tank 1 to tank 2....
A turbo pump transfers water from tank 1 to tank to tank 2 as shown in...
A turbo pump transfers water from tank 1 to tank to tank 2 as
shown in the picture below. The diameter of the piping system is D=
4in and the total length of pipes is L=620 ft. the elevation
difference is Z1-Z2= 30ft. Use the chart for KL values.
a) determine the flow rate (Q)
b) power of the pump in HP
Note that you can write out both mass balance equation and energy equation of the head form for...
A turbo pump transfers water from tank 1 to tank to tank 2 as shown in...
A turbo pump transfers water from tank 1 to tank to tank 2 as
shown in the picture below. The diameter of the piping system is D=
4in and the total length of pipes is L=620 ft. the elevation
difference is Z1-Z2= 30ft. Use the chart for KL values.
a) determine the flow rate (Q)
b) power of the pump in HP
Note that you can write out both mass balance equation and energy equation of the head form for...
A pump that is 80% efficient pumps water from the lower tank to the upper tank...
A pump that is 80% efficient pumps water from the lower tank to the upper tank at a flow rate of 0.01 m/s through 70 meters of 10-cm diameter pipe. In this system there are two regular, screwed 90 degree elbows and a fully open screwed angle valve. Assume the reservoir exits and entrances are sharp. The friction factor,f, of the pipe is 0.02. What horsepower pump is needed to achieve this flow rate? Use: Pwater = 998 kg/m2; Mwater...
ater to be pumped from a lake to a storage tank in a ranch. Water temperature...
ater to be pumped from a lake to a storage tank in a ranch. Water temperature is 60 F.The clevation of the pipe exit that will feed the tank is 50 ft higher than the lake water surface. It is required that a 4-hour pumping time will feed the storage tank by 1,200 gallons of water. While operating at the required flow rate, the pump will generate a head of 60 n. Coeflicients of minor loss due to filtering, fittings,...
A pumping system is designed to pump from a storage reservoir located at an elevation of 1015 feet. The pump elevation is 1005 feet. The pump discharge flowrate is 4500 gpm and the water temperature is 100°F (1 atm). Between the storage tank and the pump is 30 feet of 14-in DIP pipe ( = 0.018) with one rounded entrance (k = 0.05), and two 45 -degree bends (k = 0.30). What is the NPSH (in ft) for this system?...
Problem 1 (25 points) A pumping system is designed to pump from a storage reservoir located at an elevation of 1015 feet. The pump elevation is 1005 feet. The pump discharge flowrate is 4500 gpm and the water temperature is 100°F (1 atm). Between the storage tank and the pump is 30 feet of 14-in DIP pipe (f =0.018) with one rounded entrance (kent = 0.05), and two 45 -degree bends (kas = 0.30). What is the NPSH (in ft)...
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as shown below (not to scale). The flow rate is controlled by two gate valves, the gate valve I controls the main pipeline, while the gate valve II controls the loop line from T-joint A to T-joint B. All pipes are galvanized steel pipe of diameter D = 4 in. It has a total length of Li2= 620 ft from tank 1 to tank 2....
A turbo pump transfers water from tank 1 to tank to tank 2 as
shown in the picture below. The diameter of the piping system is D=
4in and the total length of pipes is L=620 ft. the elevation
difference is Z1-Z2= 30ft. Use the chart for KL values.
a) determine the flow rate (Q)
b) power of the pump in HP
Note that you can write out both mass balance equation and energy equation of the head form for...
A turbo pump transfers water from tank 1 to tank to tank 2 as
shown in the picture below. The diameter of the piping system is D=
4in and the total length of pipes is L=620 ft. the elevation
difference is Z1-Z2= 30ft. Use the chart for KL values.
a) determine the flow rate (Q)
b) power of the pump in HP
Note that you can write out both mass balance equation and energy equation of the head form for...
A pump that is 80% efficient pumps water from the lower tank to the upper tank at a flow rate of 0.01 m/s through 70 meters of 10-cm diameter pipe. In this system there are two regular, screwed 90 degree elbows and a fully open screwed angle valve. Assume the reservoir exits and entrances are sharp. The friction factor,f, of the pipe is 0.02. What horsepower pump is needed to achieve this flow rate? Use: Pwater = 998 kg/m2; Mwater...
ater to be pumped from a lake to a storage tank in a ranch. Water temperature is 60 F.The clevation of the pipe exit that will feed the tank is 50 ft higher than the lake water surface. It is required that a 4-hour pumping time will feed the storage tank by 1,200 gallons of water. While operating at the required flow rate, the pump will generate a head of 60 n. Coeflicients of minor loss due to filtering, fittings,...
Most questions answered within 3 hours.
-
If authentic leadership is really a lifelong process,
can teenagers be authentic leaders? Why or why...
asked 14 minutes ago -
Six years of quarterly data of a seasonally adjusted series are
used to estimate a linear...
asked 33 minutes ago -
Which of the following is not an ecological model used
to foster behavior change?
PRECEDE-PROCEED Model...
asked 36 minutes ago -
On the Apollo 14 mission to the moon, astronaut Alan Shepard hit
a golf ball with...
asked 32 minutes ago -
What are John’s potential claims if he is terminated
this week?
John is a 54-year-old man...
asked 46 minutes ago -
A (8.5) cm tall object is placed at a distance of (14.2) cm from
a convex...
asked 54 minutes ago -
(2) For the following questions, consider a data set that
exhibits a normal distribution. Report the...
asked 55 minutes ago -
What exactly is an information system? How does it work" What
are its people organization,
...
asked 57 minutes ago -
The Food Marketing Institute shows that 17% of households spend
more than $100 per week on...
asked 1 hour ago -
Go to NCBI BLAST search web page
1st search: GEKDLRRAKDINQEVYNF
2nd search: PTSQRLQLLEPFDK
3rd search: GEKDLRRAKDINQEVYNF...
asked 1 hour ago -
Explain how each of the following three conditions could be a
red flag for a register...
asked 1 hour ago -
In a two-way factorial ANOVA, the final F-ratio for
factor AxB is determined by dividing _____...
asked 1 hour ago