Fig. 1 Layout of modeled building unit More about this image found in Layout of modeled building unit

Fig. 2 Schematic sketch of n -layers of building wall More about this image found in Schematic sketch of n -layers of building wall

Fig. 3 Illustration of the typical ambient condition for the present study More about this image found in Illustration of the typical ambient condition for the present study

Fig. 4 Graphical representation of time lag, t lag More about this image found in Graphical representation of time lag, t lag

Fig. 5 The detailed graph of sol-air temperature and its validation More about this image found in The detailed graph of sol-air temperature and its validation

Fig. 6 Validation of time lag for different wall materials More about this image found in Validation of time lag for different wall materials

Fig. 7 Variation of sol-air temperature for each orientation of wall during ( a ) cooling and ( b ) heating modes More about this image found in Variation of sol-air temperature for each orientation of wall during ( a ) ...

Fig. 8 Variation of solar irradiation for each orientation of wall during ( a ) cooling and ( b ) heating modes More about this image found in Variation of solar irradiation for each orientation of wall during ( a ) co...

Fig. 9 Results of coefficient of determination ( R 2 ), linear regression equation, and scatter diagram showing the fitted simple regression line of time lag during ( a ) cooling mode and ( b ) heating mode More about this image found in Results of coefficient of determination ( R 2 ), linear regression equatio...

Fig. 10 Effect of thermal conductivity of wall material on time lag during ( a ) cooling and ( b ) heating modes More about this image found in Effect of thermal conductivity of wall material on time lag during ( a ) co...

Fig. 11 Effect of different wall thicknesses on time lag during cooling mode for ( a ) east wall, ( b ) west wall, ( c ) north wall, and ( d ) south wall More about this image found in Effect of different wall thicknesses on time lag during cooling mode for ( ...

Fig. 12 Effect of different wall thicknesses on time lag during heating mode for ( a ) east wall, ( b ) west wall, ( c ) north wall, and ( d ) south wall More about this image found in Effect of different wall thicknesses on time lag during heating mode for ( ...

Fig. 13 Variation of different loads for different wall materials during cooling mode for ( a ) CC wall, ( b ) BCB wall, ( c ) RB wall, and ( d ) DB wall More about this image found in Variation of different loads for different wall materials during cooling mo...

Fig. 14 Variation of different loads for different wall materials during heating mode for ( a ) CC wall, ( b ) BCB wall, ( c ) RB wall, and ( d ) DB wall More about this image found in Variation of different loads for different wall materials during heating mo...

Fig. 15 Effect of thermal mass on ( a ) cooling load and ( b ) heating load of the building More about this image found in Effect of thermal mass on ( a ) cooling load and ( b ) heating load of the ...

Fig. 1 Breakdown of energy usage in the United States ( a ) by Sector and ( b ) by End Use for Residential Buildings. Buildings use 40% of the total energy in the United States with residential buildings responsible for 21%, Space heating counts for 44%, water heating for 19%, air conditioning for... More about this image found in Breakdown of energy usage in the United States ( a ) by Sector and ( b ) by...

Fig. 2 Western View of Undeveloped Property for the Proposed House. The property is from the trees on the south (left) to approximately the white barn on the north (right) [ 36 ]. More about this image found in Western View of Undeveloped Property for the Proposed House. The property i...

Fig. 3 Autodesk revit renderings of the house from ( a ) Northeast Corner, and ( b ) the Southwest Corner More about this image found in Autodesk revit renderings of the house from ( a ) Northeast Corner, and ( b...