Please help me, please, I want to solve all the questions, without quoting and without plagiarism, I want the solution in MS Word, I do not want handwriting... Table Q3 is given to collect the temperature of hot and cold water at the inlet and outlet positionsin the laboratory using Tube Heat Exchanger (TD3602) by varying the cold-water flow rate toinvestigate the effect of cold-water flow rate on the heat exchanger's performance.(a) Complete all the output parameters indicated in the table given in Appendix 1.(b) Draw the temperature (TH1, TH2, TC1 and TC2) on the vertical vs position (1, 2) on thehorizontal axis for each flow and discuss the effect of cold-water flow rate change on theexit temperature of both cold water and hot water.(c) Draw the graph of Energy Balance Coefficient and Mean Temperature Efficiency onvertical axis and cold-water flow rate on horizontal axis. Discuss the effect of flow rateon the Energy Balance Coefficient and Mean Temperature Efficiency based on yourfinding.Table Q3.Heat Exchanger:Connection (Parallel):Ambient Temperature:Heater Tank Temperature:Hot FlowCold FlowTest (L/min)(L/min)TH: TH2| Tcı | Tca133233130.5 Heat Exchanger:Connection (Parallel):Ambient Temperature:Heater Tank Temperature:Hot FlowCold FlowTest(L/min)(L/min)TH1TH2 TC1TC1 Tc213360521018232605410213160561024430.5605710253,

1. Temperature distribution diagram

Table Q3 is given to collect the temperature of hot and cold water at the inlet and o in the laboratory using Tube Heat Exchanger (TD3602) by varying the cold-wate investigate the effect of cold-water flow rate on the heat exchanger's performance. (a) Complete all the output parameters indicated in the table given in Appendix (b) Draw the temperature (TH1, TH2, TC1 and TC2) on the vertical vs position horizontal axis for each flow and discuss the effect of cold-water flow rate c exit temperature of both cold water and hot water

Table Q3 is given to collect the temperature of hot and cold water at the inlet and o in the laboratory using Tube Heat Exchanger (TD3602) by varying the cold-wate investigate the effect of cold-water flow rate on the heat exchanger's performance. (a) Complete all the output parameters indicated in the table given in Appendix (b) Draw the temperature (TH1, TH2, TC1 and TC2) on the vertical vs position horizontal axis for each flow and discuss the effect of cold-water flow rate c exit temperature of both cold water and hot water

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Engineering Drawing

Technical drawing has been around since ancient times. As in the ancient Renaissance, complicated drawings were created, including Leonardo da Vinci's drawing. Modern engineering drawing, including its specific orthographic projection with scale conventions, began in Europe (France) during the early stages of Industrialization. L.T. C. Rolt also made some of Marc's drawings for its block-making machinery (in 1799) that also may have contributed significantly to British engineering technology. Since he learned the art of presenting three-dimensional(3D) items in a two-dimensional(2D) plane, as we now term mechanical drawing. 

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Please help me, please, I want to solve all the questions, without quoting and without plagiarism, I want the solution in MS Word, I do not want handwriting...

Table Q3 is given to collect the temperature of hot and cold water at the inlet and outlet positions
in the laboratory using Tube Heat Exchanger (TD3602) by varying the cold-water flow rate to
investigate the effect of cold-water flow rate on the heat exchanger's performance.
(a) Complete all the output parameters indicated in the table given in Appendix 1.
(b) Draw the temperature (TH1, TH2, TC1 and TC2) on the vertical vs position (1, 2) on the
horizontal axis for each flow and discuss the effect of cold-water flow rate change on the
exit temperature of both cold water and hot water.
(c) Draw the graph of Energy Balance Coefficient and Mean Temperature Efficiency on
vertical axis and cold-water flow rate on horizontal axis. Discuss the effect of flow rate
on the Energy Balance Coefficient and Mean Temperature Efficiency based on your
finding.
Table Q3.
Heat Exchanger:
Connection (Parallel):
Ambient Temperature:
Heater Tank Temperature:
Hot Flow
Cold Flow
Test (L/min)
(L/min)
TH: TH2| Tcı | Tca
1
3
3
2
3
3
1
3
0.5

Heat Exchanger:
Connection (Parallel):
Ambient Temperature:
Heater Tank Temperature:
Hot Flow
Cold Flow
Test
(L/min)
(L/min)
TH1
TH2 TC1
TC1 Tc2
1
3
3
60
52
10
18
2
3
2
60
54
10
21
3
1
60
56
10
24
4
3
0.5
60
57
10
25
3,

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