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Hybrid Solar Lighting Key objectives are to establish a more refined HSL system based on the data obtained from the proof of concept (alpha) systems evaluated during FY 2003. This should lead to a second-generation system (beta) that is much less complicated, more efficient, and less expensive. 1. Collectors. Develop a collector/concentrator design that is easier to assemble, align, calibrate, and maintain, with less complex secondary mirror- and fiber-mounting arrangements and is also lower in cost, lightweight, and more easily manufactured. 2. Fiber Optics. Develop a better match to the chromaticity of distributed sunlight with co-located electric lamps, eliminate glare associated with existing solar lighting sunlight diffusing rods. 3. Balance of Plant. Develop hybrid-compatible daylight-harvesting control systems that match the rapid- intensity variations associated with solar lighting, and improve the luminaire efficacy of distributed sunlight without impacting the luminaire efficacy of co-located electric lamps. Develop systems-level communication methodologies; diagnostics, data acquisition, and control systems; a user-friendly HSL user interface; simple, low-cost methods of installing HSL hardware in commercial buildings, including required building modifications, methods of installing the collector/concentrator, routing of the optical fibers, terminating the fibers efficiently at the luminaries, and commissioning the daylight-harvesting system; and low-cost, preferably automated, maintenance methodologies. 4. System Integration and Analysis. Develop hybrid-compatible daylight-harvesting control systems that match the rapid-intensity variations associated with solar lighting, and improve the luminaire efficacy of distributed sunlight without impacting the luminaire efficacy of co-located electric lamps. Assuming that tangible benefits are identified, develop and implement methods to credibly quantify the impact of these benefits using human-factors-based studies at alpha and/or beta demonstration sites. Table 4.3-7. Technology R&D Tasks — Hybrid Solar Lighting Task Title Barriers 1 Collector • Develop a collector/concentrator design that is easier to assemble, align, A calibrate, and maintain, with less complex secondary mirror- and fiber-mounting arrangements and lower-cost, lightweight, and more easily manufactured components (mirrors, motors, and mounts). • Develop light-distribution systems that eliminate the need for connectors and splitters in HSL system designs, develop fiber bundles with thermally compressed end-faces to reduce packing fraction losses, and increase the light-carrying capacity and temperature range of polymer large-core optical fibers. 2 Fiber Optics • Develop a better match for the chromaticity of distributed sunlight with co- B located electric lamps, eliminate glare associated with existing solar lighting sunlight-diffusing rods. Solar Energy Technologies Program Multi-Year Technical Plan A 113PDF Image | Solar Energy Technologies Program
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