When planning the architectural lighting design for a building or space, there are many factors to consider. For example, the surface temperature of the light sources and the amount of energy consumption are critical considerations when determining the amount of light to be used. Then, we can move on to other important factors, such as Photometrics and Surface temperature. Ultimately, the architectural lighting design will be functional and enhance the overall appearance of the space. To understand how to best utilize these factors, we should understand the laws of light, as well as the science behind the design process.
Light
In order to create the best lighting design possible, an architect or designer must balance three fundamental aspects: efficiency, aesthetics, and function. The aesthetics of architectural lighting are the overall impact that the lighting will have on the occupants of a space. In fact, aesthetics is a vital component of retail design because the exterior lighting should draw consumers in, and the interior lighting should awe visitors as they walk through the door.
Architecture and lighting design go hand in hand. Architectural lighting can be used to accentuate a space’s features, create a feeling of connection, and exaggerate its features. It can also create an atmosphere of excitement and intimacy. Architectural lighting should complement the architecture rather than obstruct it. It must be a seamless part of the overall experience for people to be effective. Architectural lighting can be either decorative or functional, depending on its intention.
Surface temperature
One aspect of the process of lighting design is the color temperature of light sources. Color temperature is the temperature of an ideal black body radiating the same hue. It has many important applications in architectural lighting design, but it is important to remember that surface temperature is not necessarily related to actual light temperature. For example, incandescent lamp light is thermal radiation, while white light is a white color. Thus, the surface temperature is a key factor in choosing a color in architectural lighting design.
Photometrics
One common application of photometric in architectural lighting design is sports facilities. With photometric technology, designers can determine light levels for individual courts or full-sized stadiums. They can also use this data to plan lighting layouts. For instance, a tennis facility might need to limit light trespass in the clubs and limit club-level lights. In such cases, a photometric analysis is helpful because it can streamline the buying and installation process.
Energy efficiency
If you want to save money on electricity costs, you may want to consider using energy-efficient lighting in your building. A lighting system that is energy efficient can help you save money and keep the buildings’ interiors looking good. By utilizing energy-efficient light fixtures, you will be able to lower the energy consumption of the entire building. Using natural light is a great way to save energy as well. Depending on the amount of natural light present in a space, you may even want to use only a small amount of artificial lighting.
