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Lecture Objectives: Introduce Internal Surface Energy Balance.

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Presentation on theme: "Lecture Objectives: Introduce Internal Surface Energy Balance."— Presentation transcript:

1 Lecture Objectives: Introduce Internal Surface Energy Balance

2 HW1 Problem 10 m 2.5 m Internal surfaces East South South West

3 Solar Angles qz - Solar altitude angle – Angle of incidence

4 Calculation of Solar Angles
g – surface azimuth (from 0 to ±180°, east negative and west positive) f - Latitude d - Declination (function of a day in a year) - Hour angle (function of Longitude defined distance from local meridian Austin’s Latitude = ° N Austin’s Longitude ° W What is v ? HW1a Part 3) Calculate q for two surfaces in your HW1a for each hour: Use equation from the handouts. NOTE: When you use excel be careful about degree and radian mode. Default is radian ! 1 1 radian = 180/ degrees.

5 Direct and Diffuse Components of Solar Radiation

6 Solar components Global horizontal radiation IGHR
Direct normal radiation IDNR Direct component of solar radiation on considered surface: Diffuse components of solar radiation on considered surface: qz Total diffuse solar radiation on considered surface:

7 Boundary Conditions at Internal Surfaces

8 Internal Boundaries Window Internal sources Transmitted
Solar radiation

9 Surface to surface radiation
Exact equations for closed envelope Tj Ti Fi,j - View factors ψi,j - Radiative heat exchange factor Closed system of equations

10 Internal Heat sources Occupants, Lighting, Equipment
Typically - Defined by heat flux Convective Directly affect the air temperature Radiative Radiative heat flux “distributed” to surrounding surfaces according to the surface area and emissivity

11 Internal Heat sources Lighting systems
Source of convective and radiative heat flux Different complexity for modeling

12 Distribution of transmitted solar radiation DIRECT solar radiation

13 Distribution of transmitted solar radiation diffuse solar radiation

14 Air balance - Convection on internal surfaces + Ventilation + Infiltration
Uniform temperature Assumption Affect the air temperature - h, and Q as many as surfaces - maircp.air DTair= Qconvective+ Qventilation Tsupply Qconvective= ΣAihi(TSi-Tair) Ts1 mi Qventilation= Σmicp,i(Tsupply-Tair) Q1 Q2 Tair h1 h2

15 HW1b Problem Steady State Energy Model 2.5 m Internal surfaces 8 m

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