The idea behind light movers is to get another 25-50% more coverage. This extra coverage comes at a compromise of light in other areas, but not if you have already met/exceeded the photosynthetic compensation point for the day.
LED light in particular has a very limited coverage area. One option is to raise the light several feet over the tank for better coverage, once again, at the cost of intensity. This is not a viable option for taller tanks with limited overhead clearance, as in Peter's case. We found that angling LED light fixtures about 20˚ allowed the light to travel farther and spread out more while remaining close to the surface of the tank.
Our first idea was to angle two parallel lights inward from both sides of the tank. This would illuminate the centre rock structure without shadows while keeping light off of the viewing panels and from casting shadows on fish. A simple shaft could cover the same area with just one light. Perhaps a longer photoperiod would be required, but that would move our 8 hour photoperiod closer to the 14 hour day corals would get on a natural coral reef. Keep in mind, this is 14 hours of varying intensity, not an instant on without shadows.
Back to your question, the angle of the fixture would have to be customized to keep light off of the viewing panels. At present, very little light would get within 4" of the front and back panels due to the nature of LED light. There is room for probably a 15-20˚ degree swing in each direction. Metal halide lighting is a completely different story as reflectors spread the light considerable more. The light mover idea was more of an idea for making up for the shortcomings of LED than a method of reducing the number of fixtures needed or a way of providing more natural looking light.
A rotating light mover would only create a disco floor revolving spotlight. They are noisy, corrode easily, and use exponentially more electricity than the rotating horizontal rod idea (RPMs).
Running LED lighting on an angle also breaks up the unnatural shimmer they create and minimizes hot spots in the centre and shadowing between fixture overlap.
One nice thing about Peter's tank is it gets very little algae on the viewing panels. We have cut back to cleaning the walls once a week, and it is easily carried out with a magnet without a scraper. Less cleaning isn't just less work, it's also fewer scratches in the acrylic.
An alternative to the rotating shaft idea would be to mount each LED at opposing angles, but I don't know how you could shift them efficiently. There are some methods of moving things with heat expansion such as gas charged greenhouse vents. As the heat increase, the gas expands and open a roof vent; as it cools, it contracts the vent closed. You could always use a monster fan to blow your suspended lights around for a swinging mobile effect
Sweet discussion and very cool direction for LED lighting application. Have to admit that my first impression/question re your drawing was exactly the same as Dave.M's; but I'm sure you'll play around with it until it is perfectly refined... that's the fun part of invention. I certainly do see this motion aspect being a huge compliment in completing the LED evolution. Hope you get to try it out and report back the effects somewhere.
Regards,
SJ
