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In a glass plant in Cavite, a furnace has fire-brick walls made up of the following two materials in series :                        Non-corrosive brick as inner layer (material 1) Clay brick as outer layer (material 2) Thickness 4.5 inches 8 inches Thermal conductivity k1 k2   The temperature inside the furnace (inside wall surface of the non-corrosive brick) is found to be 1105 oF while the outside temperature (outside wall surface of clay brick) is 365 oF.   This is not the desired temperature inside the furnace so engineers thought of lagging the furnace walls with another material to reduce heat loss.  The additional lagging material consists of magnesia layer which is 2 inches thick and has a thermal conductivity of 0.04 Btu /h.ft.oF.   During a test run on the furnace with the magnesia lagging material now,  new temperature readings were recorded : Point of measurement Temperature reading Inside furnace (inside wall surface of non-corrosive brick      1355 oF Interface between non-corrosive brick and clay brick      1290 oF Interface between clay brick and magnesia      890 oF Outside furnace (outside wall surface of magnesia)      190 oF   With these new temperature readings, the engineers concluded that the magnesia lagging material has led to reduction in heat loss.  How much was the % heat loss saved by the magnesia lagging ?

In a glass plant in Cavite, a furnace has fire-brick walls made up of the following two materials in series :                        Non-corrosive brick as inner layer (material 1) Clay brick as outer layer (material 2) Thickness 4.5 inches 8 inches Thermal conductivity k1 k2   The temperature inside the furnace (inside wall surface of the non-corrosive brick) is found to be 1105 oF while the outside temperature (outside wall surface of clay brick) is 365 oF.   This is not the desired temperature inside the furnace so engineers thought of lagging the furnace walls with another material to reduce heat loss.  The additional lagging material consists of magnesia layer which is 2 inches thick and has a thermal conductivity of 0.04 Btu /h.ft.oF.   During a test run on the furnace with the magnesia lagging material now,  new temperature readings were recorded : Point of measurement Temperature reading Inside furnace (inside wall surface of non-corrosive brick      1355 oF Interface between non-corrosive brick and clay brick      1290 oF Interface between clay brick and magnesia      890 oF Outside furnace (outside wall surface of magnesia)      190 oF   With these new temperature readings, the engineers concluded that the magnesia lagging material has led to reduction in heat loss.  How much was the % heat loss saved by the magnesia lagging ?

Elements Of Electromagnetics
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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In a glass plant in Cavite, a furnace has fire-brick walls made up of the following two materials in series :

                      

Non-corrosive brick as inner layer (material 1)

Clay brick as outer layer (material 2)

Thickness

4.5 inches

8 inches

Thermal conductivity

k1

k2

 

The temperature inside the furnace (inside wall surface of the non-corrosive brick) is found to be 1105 oF while the outside temperature (outside wall surface of clay brick) is 365 oF.   This is not the desired temperature inside the furnace so engineers thought of lagging the furnace walls with another material to reduce heat loss.  The additional lagging material consists of magnesia layer which is 2 inches thick and has a thermal conductivity of 0.04 Btu /h.ft.oF.  

During a test run on the furnace with the magnesia lagging material now,  new temperature readings were recorded :

Point of measurement

Temperature reading

Inside furnace (inside wall surface of non-corrosive brick

     1355 oF

Interface between non-corrosive brick and clay brick

     1290 oF

Interface between clay brick and magnesia

     890 oF

Outside furnace (outside wall surface of magnesia)

     190 oF

 

With these new temperature readings, the engineers concluded that the magnesia lagging material has led to reduction in heat loss.  How much was the % heat loss saved by the magnesia lagging ?

 

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