Question

Water at 160° Fis drawn at the rate of 400 gal/min from a vented tank into the 2-in Sch 40 suction line of the pump made of s

0 0
Add a comment Improve this question Transcribed image text
Answer #1

Givens - Temperature of water T=168F, [Density bilb] flow rate. = 400 gal/min = 0.8912 ft3c Sagpma 0.00222 f3, Diameter of scso, Total loss co-efficient. Ek=KEtks ttg = 0.6+2+0.8 so, Total Head Loss, hy = ( EK + f Lpipe žg h = 3,4+ 0.019X501 x 38.249so. Using Besenoullis Equation between Vented - tank and outlet of pipe, pumn AY 9 [Pa = P2 = Pato , because both ace open t

Add a comment
Know the answer?
Add Answer to:
Water at 160° Fis drawn at the rate of 400 gal/min from a vented tank into...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • 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 pump delivers water at 200C between a reservoir and a water tank that is 75[ft] higher than the...

    A pump delivers water at 200C between a reservoir and a water tank that is 75[ft] higher than the reservoir. The suction side of the system consists of a cast iron pipe of 1[ft]diameter with a strainer (Ks= 2.5) and four 90-degree bends at R/D= 5. The discharge side of the system includes a 1000[ft] long commercial steel pipe with 12” diameter followed by a gate valve. The NPSH required for the pump is 10[ft], and the design discharge is...

  • 1 A pump delivers water from the lower reservoir to the upper reservoir at a rate of 60 L/s. Both...

    1 A pump delivers water from the lower reservoir to the upper reservoir at a rate of 60 L/s. Both the suction and discharge pipes are DN 150 schedule 40steel pipe. The length of the suction pipe leading to the pump is 3.5 m, and 7 m of discharge pipe extend from the pump outlet to the upper tank. There are three standard 900 elbows and a fully open gate valve. The depth of the fluid level inside the lower...

  • Water at 15° is flowing at the rate of 14.4m²/hr (Fig. 2). The head added by...

    Water at 15° is flowing at the rate of 14.4m²/hr (Fig. 2). The head added by the pump is equivalent to 80 m. Both tanks are vented. Suction line is 15m long and discharge line is 200m long. Both suction and discharge lines are standard 2-inch (5.1cm) clean steel pipe with roughness value of ε = 5.1 x 108m. Assume that the entrance from Tankl is through a rounded inlet with inlet radius of 10mm and that the elbows are...

  • 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...

  • Water at 15° is flowing at the rate of 14.4m/hr (Fig. 2). The head added by...

    Water at 15° is flowing at the rate of 14.4m/hr (Fig. 2). The head added by the pump is equivalent to 80 m. Both tanks are vented. Suction line is 15m long and discharge line is 200m long. Both suction and discharge lines are standard 2-inch (5.1cm) clean steel pipe with roughness value of s=5.1 x 10ʻm. Assume that the entrance from Tankl is through a rounded inlet with inlet radius of 10mm and that the elbows are standard 90°....

  • Water is pumped at a rate of 10 litres/s from a pond to an open tank....

    Water is pumped at a rate of 10 litres/s from a pond to an open tank. The pipe is 30 m in length and made of 1-in, Schedule 40 (I.D = 0.02664 m) commercial steel pipe with the surface roughness of 0.0018 in (0.045 mm). In the pipelines, there are two gate valves, one globe valve and three 90o long-radius elbows. The surface of water in the tank is 3 m above the surface of the pond. (The density of...

  • A centrifugal pump takes water from the bottom of a supply tank and delivers it into...

    A centrifugal pump takes water from the bottom of a supply tank and delivers it into the bottom of another tank. The water level in the discharge tank is 50m above the level in the supply tank. The line between the tanks is 200m of 4-in commercial steel pipe. The ow rate is 1200 l/min. In the line, there two gate valves, four standard tees and four elbows. What is the energy cost of the running this pump for one...

  • Q) Methyl alcohol at 25 C is flowing at the rate of 54000 lit/h. The suction line is a standard 4...

    yes you can Q) Methyl alcohol at 25 C is flowing at the rate of 54000 lit/h. The suction line is a standard 4-in Schedule 40 steel pipe, 1500 cm long. The total length of 2-in Schedule 40 steel pipe in the discharge line is 200 m. Assume the entrance from reservoir 1 is through a square-edged inlet and that the elbows are 90° standard. The valve is fully open globe valve. A) List the piping systems components B) Generate...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT