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Home Lighting Design – Daylighting Design
This article develops an exclusive and extensive home lighting design Daylighting Design Program to address code and more. Lighting design policy for most homes these days: Let daylight in with qualifications, maybe not too much, not too little, depends on where, how, how about when, what shine, etc. a natural lighting design calendar.
Domestic Lighting Design Code: IRC 303.1 effectively and generally presents that for natural lighting design, at least in a sleeping room, the “aggregate glazed area” should not be less than 8 % of the floor area of this room. (CABO is tougher, fewer exceptions.) [Please note that this presentation has no direct connection with emergency egress.]
Home daylighting design practice? Who knows. The author has had reactions ranging from “exactly right” to “not that important around here” to “what are you talking about” from building authorities who have jurisdiction. If others consider it, it would be for sleeping areas only, is my expectation.
DRY GLASS AREA
To begin with, the term aggregate glazing area, otherwise undefined, is interpreted as a translucent surface: glass, clear plastic, etc. and not frame, sash, uprights, trimmings and the like associated. What Marvin Windows and Doors defines as “Lite”, Pella as “visible glass”, Loewen as “exposed glass area”, etc.
Please note that if some people were not interested in these surface areas, the big Windows players would not solve it in print. This custom home designer is interested.
THE HOUSE LIGHTING SCHEDULE FOR THE DAYLIGHT DESIGN
A home lighting daylighting program, or lighting schedule, accomplishes four purposes.
First, it defines the proportion of glass area added to the interior surface of each main space of a residence, including living rooms, corridors, dressing rooms, service spaces for workshop and laundry and other garages, etc.
Second, it compares the actual aggregate glazing area to the calculated code target for each main space and reports the difference in square feet of glazing area or, more likely, as a percentage of the target the glass area; the latter seems easier to understand usefully.
Third, it selectively comments by suggestion, indication and definition on aspects of natural light of importance as warranted by the views of the designers.
Fourth, it provides the opportunity to identify persistently dark spaces or parts of spaces far enough from a natural light source to be considered unlit, or not penetrated, by a natural light source, e.g. a space considerably removed from the natural light of a covered porch, an exceptionally deep interior space.
The structure of the schedule is presented as a table with several columns. From the left, we see: to give space; its surface in square meters; 8% of this area in square feet; aggregate glass area of that space in square feet (usually to one decimal place); the arithmetic and percentage difference between the 8% and aggregate glass column; and comments if applicable. Comments may include, but are not limited to, modular, dark, code compliant (for bedroom areas), etc.
Home lighting experts place definable limits on the amount of useful daylight that can penetrate a space. These limits can be found, for example, in Lighting Design Basics by Mark Karlen and James Benya, John Wiley & Sons, Inc., 2004, p.34 and Interior Lighting For Designers 4th Edition by Gary Gordon, John Wiley & Sons, Inc . ., 1957, p. 53ff. Although this daylight penetration aspect of the daylighting analysis can be critical, the consideration of daylighting-related adjustment is, in the author’s opinion, well worth it worth the effort as a preventive design alert for comfort and safety.
The Home Daylighting Design Schedule features several bases or inputs for home design analysis, 16 in total.
1. By itself for natural light, in the orientation of the home’s compass and, eventually, its regulation and in the personal assessment of infiltration and adequacy in illuminated spaces.
2. Ventilation as a cross-check of quality control in the cross-ventilation of bedroom areas and more occupied rooms, in addition to sizing and indicative location of both supplies and returns.
3. UV intrusion indicator where it can be determined as less welcome and its power decreased.
4. Natural heat indicator for professional HVAC care and various design means to reduce.
5. Definition of daylight glare, especially in areas, such as stairways, where glare threatens safety.
6. Qualification for code compliance of the glass area added to the surface of the space in sleeping areas, especially more problematic in these spaces within floor and half structures at L2.
7. Suggestive guide to artificial lighting throughout, especially ambient lighting and lighting controls.
8. Final cross check of window and door size and site on elevations, plan views and window schedule (and possibly door schedule).
9. Excellent insight into the consequences of exterior design on interior functionality, occasionally leading to minor to major design changes.
10. Guide to increasing stratification in spaces with little natural light.
11. Continuous service qualification guide in spaces with little and very little daylight.
12. Guide to modify the dimensions of the fenestration.
13. Guide to modify the location of the fenestration.
14. Motivation in deep spaces of a single floor with external roofs to penetrate those roofs with niches in the roof, sunscreen, skylight, skylight, etc.
15. Motivation in single-story deep spaces with or without exterior roofs to add openings and light wells through skylights and other fenestration design modifications.
16. Motivation, especially in one-and-a-half story designs, to necessarily add skylights, skylights, skylight tubes, skylights, light wells and other fenestration design modifications.
Comment: Please note that major error correction to achieve convenient and safe sizing and placement of windows, exterior door composition, light fixtures, and light reflecting and absorbing features may entail a repair expense and a physical inconvenience.
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