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Hybrid Solar Lighting, def'n: A roof-mounted solar concentrating device used to focus sunlight for transmission via fibre optic cables to rooms where natural lighting is desired. The word 'hybrid' comes from the secondary light source that kicks in when light levels from the sun are insufficient - ie. on cloudy days or at night.

Original Home Design w/ HSL Lighting to Basement

* Although an open-plan design furnishes adequate natural lighting to the above ground floors, the basement wants for a natural, central light source. HSL provides the solution.


Evaluation of Hybrid Solar Lighting for Residential Application in Kamloops, BC

Abstract Outline

Hybrid Solar Lighting, a daylighting system which utilizes mainly sunlight to illuminate interior spaces, has been conceptually existent for more than 30 years. As the quest to reduce energy consumption in a sustainable, responsible way advances, so too has the conceptually viable principle of solar daylighting. The latest research in sunlight collection and distribution within buildings has resulted in commercially available, out-of-the-box systems for installation on a residence. The question that this paper addresses is: What is the cost and payback information on the latest commercially available hybrid solar lighting systems when applied to a home with a full basement in Kamloops, B.C., and are there ways to moderate these expenses, ie. build your own?

Firstly, an analysis of the lighting needs in an original home design that includes a full basement will quantify the light output requirements of the desired system. IESNA standard lighting calculations will determine the lumens output and light distribution characteristics desired. Illustrations and calculations will reveal that the lighting needs of a residence require a modest system of supplementary solar lighting as compared with applications that have been primarily aimed at commercial lighting needs. Directional orientation data for local solar light collection will be gathered from area's solar product suppliers and installers to determine the optimal parameters for solar tracking devices.

Tabulated costing information, including shipping and installation estimates, will enable a comparative analysis of the commercially available hybrid solar lighting systems. The variety of collection systems, and associated costs to manufacture, will be a primary factor in choosing the most cost-effective design. Exotic systems containing extraordinary optic assemblies of individual lenses that track the sun have high costs associated with their manufacture, control devices and shipment. Parabolic dish collectors have inherent cost efficiencies in that dishes and tracking systems have already been pioneered and cost deflated in the satellite television industry, so commercially available versions of this system type will be expected to fare well. Large core optical fibre, the light conduit from rooftop to interior, is an inherent and supplied component to all of these systems, and its performance will be compared with the more common communications-grade fibre optic cable that may be obtained at a lesser expense.

Finally, the initial cost comparisons will reveal that one manufacturer has the lowest priced system to supply the light output required, and the summarized costing information will be assessed against the time to payback its purchase. Comparison with conventional light sources including incandescent and fluorescent lighting at average electricity supply rates will reveal that the payback time will be lengthy.

The author shall examine cost-reduction strategies, and, as addendum, report on the attempted simulation of a home-built hybrid solar lighting solution. Ideas for this simulation include sourcing a minimum 48" diameter used satellite dish and tracking system, having the surface reflectorized, and mounting a secondary element to strip the infrared and ultraviolet components from the sunlight. Utilizing surplus commercial communications-grade fibre optics and lenses to disperse the light will further reduce costs, and will lead to the finalization of the home-built HSL experiment. The success of the experimental component of the research will be a footnote to answering the paper's question: What is the cost and payback time for installing a commercially available hybrid solar lighting system in a residential application in Kamloops, B.C.?

4 comments:

  1. Hi Tony,
    I have found some information on light-pipes in the TRU library, hopefully you can get some helpful information from this!
    http://ezproxy.tru.ca/login?url=http://search.ebscohost.com/login.aspx?direct=true&db=a9h&AN=45421235&site=ehost-live

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  2. Thanks Mike,
    I took a look, and will read it up and see what they did for measuring light levels, criteria, etc for light pipes. They are definitely popular for applications on the floor immediately below the main roof.
    Regards,
    Tony.

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  3. Congratulations again on the research scholarship Tony! I hope that you will continue to use your blog throughout the summer to update us on your progress.
    as for the abstract, I am much more interested in the second part of your thesis question regarding the practicality of building your own hybrid lighting. It appears that you have done enough research already to show that the commercially available systems are not economically viable. I would still include this in your report, but the main focus should be on your own design and implementation (not just a footnote). Now that you have a research scholarship you should have enough time to explore this fully. Good luck!

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  4. Thanks for your input and encouragement Dale,

    I appreciate the comment on my research focus.

    I too am excited more by the design and implementation of a working HSL system than on creating a shopping list for the wealthy few who would choose to spend more for light than virtually anyone else would.

    My revised abstract will reflect a more confident tone on where the research expects to contribute some authentic, original, documented findings.

    This blog will be my ongoing forum for discussing the lighting system, throughout the rest of 2010.

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