In order to cool down a hot steel sphere (its diameter is 5 cm), CO2 gas is blown over it through a pipe with a diameter of 10 cm. The CO2 gas is kept at atmospheric pressure while moving through a smooth pipe at a speed of 6 m/sec. The gas temperature entering the pipe is 300K and exiting the pipe is 340 K. The pipe temperature at the entrance is 350K and at the exit is 550K. The sphere is located just about the pipe exit. Find the convective heat transfer coefficient of the gas moving in the pipe, the heat transfer rate at the pipe and the pipe length. What is the surface temperature of the sphere if the heat transfer rate between the sphere and the gas is 7W and its surface temperature is higher than the gas?

In order to cool down a hot steel sphere (its diameter is 5 cm), CO2 gas is blown over it through a pipe with a diameter of 10 cm. The CO2 gas is kept at atmospheric pressure while moving through a smooth pipe at a speed of 6 m/sec. The gas temperature entering the pipe is 300K and exiting the pipe is 340 K. The pipe temperature at the entrance is 350K and at the exit is 550K. The sphere is located just about the pipe exit. Find the convective heat transfer coefficient of the gas moving in the pipe, the heat transfer rate at the pipe and the pipe length. What is the surface temperature of the sphere if the heat transfer rate between the sphere and the gas is 7W and its surface temperature is higher than the gas?

Automotive Technology: A Systems Approach (MindTap Course List)

6th Edition

ISBN:9781133612315

Author:Jack Erjavec, Rob Thompson

Publisher:Jack Erjavec, Rob Thompson

Chapter34: Emission Control Diagnosis And Service

Section: Chapter Questions

Problem 2RQ: What will result from too little EGR flow? And what can cause a reduction in the flow?

See similar textbooks

Related questions

Q: We performed the experiment to measure the thermal conductivity of 2 materials (Brass & Steel) in…

Q: In convection heat transfer, what mechanism heat transfer where the fluid moves due to the decrease…

A: There are two types of convection heat transfer:- 1) forced convection- in this type of convection…

Q: Conduction An aluminum rod and an iron rod of equal length 2.0 m and cross-sectional area 2 cm? are…

Q: Two thermal reservoirs are connected by a solid copper bar. The bar is 2 m long, and the…

A: The temperature distribution represents the temperature at finite points on the surface. The…

Q: number 1 A food product containing 80% moisture content is being frozen. Estimate the specific heat…

A: 80% moisture content is frozen.80% water is frozen which means 20% is still water, soSpecific heat…

Q: A thermodynamic steady flow system receives 4.56 kg per minute of a fluid work pressure is equal to…

Q: In steady state, the heat transfer coefficient "k" is L=0.5 m Left face temperature of infinitely…

A: Given data as per questionT=250°Ch=40W/mKL=0.5mk=10W/mkqu=5×104W/m3

Q: Table Q1 shows the initial temperature distribution of a 1 cm long steel bar at equal distance Table…

A: Given : Initial Temperature - 110, 85, 70, 55, 17 L = 1 cm Diffusivity, K = 2.5 cm2/s To find : a)…

Q: Newton's Law of cooling: (3.1 p. 88) A cake is removed from an oven and its temperature is 300°F.…

A: The initial temperature of the cake when it is removed from the oven θ1=300oFafter three minutes its…

Q: 3.A sphere of diameter of 1.00 m is immersed in a river. The velocity of the approaching flow is 2.0…

Q: The correlation below is used to calculate the heat transfer coefficients for forced convection…

A: Following is the answer for the question.

Q: QUESTION-) 236 °C steam flows in a pipe which features are given below. Inner and outer diameters…

A: a) Outer surface area (A0)= π×do×L= 502.65m2 Inner surface area (Ai)=π×di×L=471.2388m2 Internal…

Q: Residual oil, with a heating value of 18,480 BTU/lbm, is used as a fuel in a power plant which…

Q: Air at atmospheric pressure enters a heating duct with dimensions of 3 x 6 in. The air enters the 16…

A: GivenArea=3×6inarea=18in2Initial temp=150FFinal temp=68FK=0.173Btu-in/ft2l=16ft=192in

Q: 6. (a) The temperature distribution across a wall of an aluminium cylin- der block, 4 mm thick at a…

Q: 3) Air at 20•C blows over a hot plate 50 by 75 cm maintained at 250•C. The convection heat- transfer…

A: Basics of Heat transfer are used.

Q: 4. A certain building wall consists of 6-in of concrete ( k = 1.2 W/m- o C), 2 in of fiberglass…

Q: Part A If the temperature of the room is 20°C and outside is 10°C, find the rate of heat flow for a…

Q: By writing the Fourier heat conduction equation, we can find the meaning of each term in the…

A: Diameter of cylinder, d=25 mm=0.025 m Length of cylinder, L=30 mm= 0.030 m Thermal power, Q=22.4 W…

Q: An electric fumace is a composite wall consisting of a brick with 0.2 m refractory brick (k=2), 0.15…

Q: Explain step-by-step

A: Write the given information. Write the property of water at 341.15 K.

Q: number 1 A food product containing 75% moisture content is being frozen. Estimate the specific heat…

A: Moisture content =75%=0.7585% water is frozen i.e it contains 85% ice 15%…

Q: ii) Water of 1.5 liters is heated to a maximum temperature of 115 °C from room temperature to…

A: The property that defines the change in the size of the material as temperature changes is volume.…

Q: A cubical piece of heat-shield-tile from the space shuttle measures 0.17 m on a side and has a…

A: a) Given, A cubical piece of heat-shield-tile from the space shuttle. Thermal conductivity of the…

Q: 236 °C steam flows in a pipe which features are given below. Inner and outer diameters of pipe are…

A: First of considering uninsulated pipe.

Q: In an experimental determination of specific heat capacity of air at constant pressure, 50 gm of air…

A: We have, m=50 gm=50×10-3 kgt1=14°C,t2=74°Cγ=CpCv=1.4

Q: Air stream (k = 0.02439 W/m.K, v = 1.426 ×10 m2/s, Pr = 0.7336) flows over a flat surface [L= 4.5 m,…

A: As per given question Air stream (k = 0.02439 W/m.K, v = 1.426×10 m2/s, Pr = 0.7336) flows over a…

Q: State 1. The critical radius of insulation for a cylinder is given by 2. In transient heat…

A: 1: True The critical radius of insulation for cylinder is given by, 2: True In transient heat…

Q: Air Ta = 0°C D Is Ясоnd A liquid water droplet of diameter D = 255 µm falls on a cold surface with…

Q: Thermodynamics In a solid sphere of 0.2 m diameter, heat is generated at the rate of 1.2 x 106…

A: Given:d=0.2 mq=1.2*106 W/m3Tc=300°Ck=50 W/m.k

Q: EXAMPLE 2.3 A= 10 m? =1000 Wim k=D40 Winrk p= 1600 kgn 4 kiigK The temperature distribution across a…

Q: By writing the Fourier heat conduction equation, we can find the meaning of each term in the…

A: Given data: The diameter of the cylinder, d = 25 mm. The temperature on the left end of the…

Q: To avoid overheating, natural convection analysis is to be considered. If the minimum allowable heat…

A: Write the given data in the problem. Ts=45°CTa=32°C Q=30 W Here, Ts is the surface temperature, Ta…

Q: number 1 A food product containing 82% moisture content is being frozen. Estimate the specific heat…

A: A food product with 82% moisture content,82% of the water is in frozen state ,specific heat of dry…

Q: Assuming lumped heat transfer, think that in a cold winter day, you are leaving your house with your…

Q: A flat plate of length 0.3 m is maintained at a temperature of 42°C. A stream of water 6.62, v=…

A: given; ⇒length of flate plate(l)=0.3m⇒temperature of plate(T1)=420c⇒Pr=6.62⇒kinematic…

Q: Estimate the convective heat-transfer coefficient for natural convection from a horizontal steam…

A: “Since you have asked multiple question, we will solve the first question for you. If you want any…

Q: QUESTION-) 236 °C steam flows in a pipe which features are given below. Inner and outer diameters…

A: tempertaure of steam in the pipe, Ts=236oc=236+273=509Kinner diameter of the pipe,…

Q: The outside temperature of a 10 ft² hot insulated pipe is 140 °F and the surrounding atmosphere is…

A: Given Data Area of pipe = Temperature of pipe = T1=140°f=140+460=600°R Temperature of atmosphere…

Q: A cylindrical resistor element on a circuit board dissipates 0.24 W of power in an environment at…

Q: 1.14 Heat is generated at a volumetric rate q in PA u a rod of radius r and L12 h To length L. Half…

A: Heat transfer equation

Question

Heat Transfer question

Find the convective heat transfer coefficient of the gas moving in the pipe, the heat transfer rate at the pipe and the pipe length. What is the surface temperature of the sphere if the heat transfer rate between the sphere and the gas is 7W and its surface temperature is higher than the gas?

Tw, =350K
Tw, =550K
CO
2(gas)
D =5 cm
Tin=300k
V =6 m/sec
D=10 cm
Tout=340k
V =6 m/sec

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Step 7

Step 8

Step 9

Trending now

This is a popular solution!

Step by step

Solved in 9 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

The date for a certain installation are as follows Net Head = 454 m, BP = 57,200 bkw, n = 750 rpm, ηT = 90%. What type of turbine was used? A. Impulse turbine B. Kaplan turbine C. Propeller turbine D. Francis turbine
How to Calculate the thermal efficiency of 400 MWth PBMR.PBMR, Helium using Brayton Cycle
HANDWRITTEN AND FINAL ANSWER MUST BE IN ENGLISH UNITS. Show solution. An experimental gas turbine engine is under development to increase its mechanical efficiency. It has a turbine efficiency of 95% and compressor efficiency of 85%. The following parameters are provided: P1 = 550 kPa, T1 = 25 deg C, rp = 5.5, T3 = 1450 deg C, Wnet = 5500 kW. Compute for the (a) flow rate and (b) mean effective pressure. Consider Ethane as your working fluid.
A single cylinder petrol engine works on the Otto cycle and draws in air at 1.01 bar and 22°C. The bore and stroke of the engine are 105 mm and 130mm respectively and the clearance volume is 13% of the swept volume. If the maximum temperature in the cycle is 1400°C find; a. The Volume at the remaining points of the Cycle b. The Heat Supplied, Heat Rejected, & Efficiency of the Cycle c. The mean effective pressure
1. A single cylinder petrol engine works on the Otto cycle and draws in air at 1.01 bar and 22oC. The bore and stroke of the engine are 105 mm and 130 mm respectively and the clearance volume is 13٪ of the swept volume. If the maximum temperature in the cycle is 1400OC find; a. compression ratio b. cycle efficiency c. the mean effective pressure
What is most likely to happen to a kaplan turbine without any draft tube in a commercial hydropowersites?
A single cylinder petrol engine works on the Otto cycle and draws in air at 1.01 bar and 22C. The bore and stroke of the engine are 105 mm and 130 mm respectively and the clearance volume is 13% of the swept volume. If the maximum temperature in the cycle is 1400C find; a. The Volume at the remaining points of the Cycle b. The Heat Supplied, Heat Rejected, & Efficiency of the Cycle c. The mean effective pressure
Inlet: Air, 72 kPa, 291.15K, 230 meters/second Outlet: Air, 98 kPa, 0 meters/second What is the temperature at the outlet? Cp=3.5(8.3145). No heat exchange.
The world’s largest diesel engine has displacement of 25 m3 running at 300 RPM in a two-stroke cycle producing 100 000 hp. Assume an inlet state of 300 kPa, 300 K and a compression ratio of 20:1. a)What is the mean effective pressure? b)The flow of air to the engine?
A 4-cylinder four-stroke petrol engine develops 14.5 kW at 1000 r.p.m. The mean effective pressure is 5.6 bar, Calculate the bore and stroke of the engine, if the length of stroke is 1.5 times the bore.
Rankine cycle
Combined Rankine Cycle Show the details of your solutions with Schematic and TS diagrams Condition Required PH = 17 MPa, 10000C Thermal Efficiency ? PR = 8 MPa, 8000C PReg = 4 MPa PL = 0.008 MPa