Draft for comment (613) Public Works Canada Design & Construction Technology DRAn' 1 July, Computer-Aided Design Centre (CAD) TSS COPY
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1 ~ (c) Public Works Canada Design & Construction Technology DRAn' 1 July, 1980 Draft for comment Computer-Aided Design Centre (CAD) TSS COPY DO NOT REMOVE User enquiries and requests for this or other CAD documentation: CAD Centre Public Works Canada 7E Sir Charles Tupper Building Riverside Drive Ottawa K1A OM2 (613) Not a publication. Do not cite as a reference or catalogue in library.
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3 The EAS program (Draft 1) computes the following hourly heating/cooling loads based on a constant room temperature of 75 F: sensible load to return air sensible load to spaoe latent load to space (CLr).. (CL 8 ) ( CLro) These loads are saved on a loads file for subsequent use in system simulation; the report of peak heating/cooling and heating/cooling consumptions refers to only the space sensible load. Hourly load calculations are performed for the following components: People Lights nfiltration Transmission through walls, roofs, and windows Solar radiation through windows 1
4 2.1 People 2.2 Lights These calculations are performed in imperial units (i.e., S input is converted before calculation) and on a unitized basis (per square foot of floor area). the load due to people is assumed to b~ _instantaneous; each person contributes 250 btu/hr of lb/hr of moisture. CLs = 250 (person per sq. ft.) CLm = * (person per sq. ft.).. sensible heat and The return air load due to lights is assumed to be instantaneous. CLr = W * (fraction to RA) where W =input to lights (watts/sq. ft.) The remainder of heat from lights is considered in two parts. The convection portion is assumed to be instantaneous. CLs = W * (1-fraction to RA) (1-fraction radiant) The calculation for the radiant portion uses the transfer function method to account for heat storage in the building mass. where CLs(t) - cooling load at time t CLs<t-1) - cooling load at time ( t-1) Q(t-1> - Q(t-2> heat gain at time (t-2) heat gain at time ( t-1) v 1,v 2,w 1 - transfer function Table ) coefficients (see 2
5 The heat gain is: Q(t) = W * * (1-fraction to RA) * (fraction radiant) TABLE Transfer Function Coefficients for Radiant Portion of Lights Note: X L H v The transfer function for radiant portion of lights is essentially the same as for solar radiation except for a delay of 1 hour; this delay makes it consistent with the equations developed by Mitalas. 2.3 nfiltration Th~ load due to infiltration is considered instantaneous. The sensible load is: The latent load is: - specific heat of air (btu/lb F) - infiltration rate (lb/hr) - outdoor air temperature room air temperature - humidity ratio of outdoor air (lb/hr) - humidity ratio of room air 2.4 Transwtssions Through Walls, Roofs and Windows n order to simplify the input and decrease execution time, the EAS program does not use transfer functions for ca!culating the heat gain through walls and roofs. More significantly, outdoor dry bulb temperature is used rather than air temperature. This may result in a significant error when transmission through the roof is a major component of load; however, in most cases the error will be relatively small. 3
6 The C9Qling load ror transmission through walls, roofs and windows is computed using the transfer function: The heat gain is computed by: Q = u-value area (6 0 - Qi) cooling load at ~ime (t) cooling load at time (t-1) heat gain at time (t) heat gain at time (t-1) transfer function coefficients (see Table ) TABLE Transfer Function Coefficients for Transmission X L M H v Yo v1 0 -.!) w Solar JladiatiOG TbJ:oougb Windows The cooling load due to solar radiation is calculated using the transfer fu~otion method: where cooling load :at time t cooling load at time (t-1) heat gain at time t heat gain at time (t-1) transfer function coefficients (see Table ) The heat gain is calculated by: where Ag SCg H = area of glass = shading coefficient of glass =.solar radiation through standard glass (1/8" DS) for the given orientation. (The effect of cloud cover is included in H.}
7 TABLE Transfer Function Coefficients for Solar Radiation X L M H v Vo v w l J. 5
8 6 The EAS program uses values of solar radiation (direct normal and sky diffuse) read directly from the weather file for each hour. These values are treated as if they are measured data even though they may, in fact, have been created from calculated solar,and cloud cover modifier. (The Montreal and Vancouver data presently available are created using R.F. Meriwether and Associa.tes cloud cover modifiers). The value of solar radiation through standard glass, H, is calculated each hour: = sky dit'fu>'~e radiation = direct normal radiation = modifier, for particular azimuth and tilt, to be applied to sky diffuse = modifier, for particular azimuth and tilt, to be applied to direct normal The factors a and B are functions of the geometry; they are calculated for only 1 day, the 21st of the month. Note that the effect of shading devices, if any, is also included in B The derivation of a and B factors is given in Appendix.
9 . ttl The EAS program performs hourly calculations for seven days to represent each month. Monthly consumptions are obtained by multiplying by the ratio (no. of days in month/7). The seven days representing each montb.are chosen to give approximately the same values for peaks and comsumptions as the full year analysis. ndications are that this results in errors of less than 5%. The advantages are that computation time is reduced by a factor of 4, and the size of weather and loads files is also reduced by a factor of 4. This makes floppy disk storage practical for these files. i ~ 7
10 8 5. The purpose of the reference system model is to provide some indication of the cooling which would be required when outdoor air is used for "free-cooling". ~he system chosen is basically an ideal variable air volume system which maintains room conditions without using "reheat". This system is one which provides the necessary cooling by adjusting the flow of supply air, fs, which is assumed to be at a constant condition of Ss (60 F) and h 8 (25 btu/lb). = {?* Cp t 60 ll (Sr ) The amount of mechanical cooling required by this system, R, depends upon the outdoor air conditions: - f outdoor air temperature Goa is less than or equal to 6 8 then the supply air condition can be maintained by mixing without any refrigeration; R = e. f outdoor air temperature, Goa is greater than Ss then mechanical cooling is required. f outdoor air dewpoint is less than or equal to the supply air dewpoint then only sensible cooling is required. The amount of sensible cooling is: R = E?* cp * 60 * f 8 11 ( G 0 a - Gs) where e = density of air Cp = specific heat of air R = < 8 oa - 8 s> * CL 5 (Sr - Ss) - f ou'tdoor air dewpoint is greater than supply air dewpoint, and outdoor enthalpy, hoa is less than or equal to room enthalpy, hr, then outdoor air must be cooled to the supply condition. The cooling required in this case is: R = f fa (hoa - hs) combining equations R " (hoa - hs) * CLs cp <er - 9s) - f outdoor air enthalpy, hoa is greater than room enthalpy, hr then room air is recirculated and cooled rather than cooling outside air (except for outdoor air which is included as ventilation/ infiltration air). n this case the mechanical cooling required is equal to the space load, or 1 f l! i ' r : i R = CLs
11 Derivation of Sollll' Modifiers a and B The solar heat gain through glass is the sum of transmitted radiation plus the inward flowing fraction of radiation absorbed in the glass; both direct and diffuse components must be consigered: H = (direct transmitted + direct absorbed) * SHRAT + (diffuse transmitted + diffuse absorbed) where SHRAT is ratio of unshaded area/total area for windows with shading devices (1. for unshaded window). Direct transmitted = Direct absorbed = Diffuse transmitted = Diffuse absorbed = direct * transmittance of glass for direct absorptance. direct absorptance of glass for direct * inward flowing fraction. diffuse * transmittance for diffuse. diffuse * absorptance for diffuse * inward flowing fraction. For standard glass ( 1/8 11 DS): inward flowing fraction = transmittance for diffuse (Td) = absorptance for diffuse (Ad) = n u ' '.'',, J ~. n. Transmittance and absorbance of glass for direct solar are functions of the cosine of the incident angle, ~: 5 Act = Y. aj cosj (~) j = 0 5 Tct = l. tj cosj (') j = 0 The values of aj and tj for standard glass are given in Table V. 9
12 TABLE V Values of aj and tj for Standard Glass a t The direct solar component is: direct = n cos ($) The diffuse solar component is: diffuse = Y * s + Z ground brightness where y y z = Sky brightness = 0.45 if cos (n) < -.2 = = otherwise cos ~ cos2 ~ 1 +cos (180 - tilt angle) 2 ground brightness = ROG (s + n * sin (altitude angle)) where ROG - ground reflectivity. Substituting into equation 1 and regrouping terms: H = a. s + Bn where a. = * (Y + Q * ROG) ~ = ( * Z * ROG * sin (altitude.angle) + FUNCT (cos(~)) * SHRAT where FUNCT = '(Ad Tct) * cos ($) SHRAT is calculated using the subroutine SHADOW from ASHRAE Energy Calculations 1. 10
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