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Yield, Durability, and Reliability” solicitation. (09/06) • Completing stage-gate reviews for individual YDR subcontracts regarding progress versus milestones, and initiating required redirections and subsequent phased research activities. The research addressed by the PVMR&D Project, is chosen by the U.S. PV industrial participants in the form of proposals received in response to competitive solicitations. As such, these are systems-driven issues and are of the highest importance to PV manufacturers. Actual projects are chosen primarily by evaluators external to the government using criteria constructed to select, in a technology neutral manner, those activities most likely to contribute to the PVMR&D Project goals and objectives. Subcontracts under this project have continued to contribute to both the reduction of PV system costs and the improvement of PV manufacturing processes and products. In addition, representatives of the PV industry have generally identified this project as one of the most, if not the most, important and successful projects in the DOE Program. As such, the PVMR&D Project will continue to support manufacturing R&D consistent with the Systems-Driven Approach that has been established under this partnership of industry, laboratories, and government by implementing multi-year subcontracts that address industry- identified problems selected through competitive and fair processes. 5. Major FY 2005 Publications K.E. Brown, R.L. Mitchell, W.I. Bower, R. King, “PV Manufacturing R&D Project Status and Accomplishments under ‘In-Line Diagnostics and Intelligent Processing,’ ” Proc. of the 31st IEEE Photovoltaic Specialists Conference, Lake Buena Vista, Florida, January 3–7, 2005, NREL/CP-520- 37381, February 2005 (www.nrel.gov/docs/fy05osti/37381.pdf). L. Hargis, J. Botkin, “PowerLight Corporation Lean Manufacturing, PV Manufacturing R&D Phase I Report,” 6 December 2001–31 March 2003, NREL/SR-520-35881, June 2005 (www.nrel.gov/docs/fy05osti/35881.pdf). 57 Nowlan, M.J., Murach, J.M., Sutherland, S.F., Miller, D.C., Moore, S.B., and Hogan, S.J., “Development of Automated Production Line Processes for Solar Brightfield Modules,” Annual Technical Progress Report, 1 January 2003–30 June 2004, NREL/SR-520-36608, June 2005 (www.nrel.gov/docs/fy05osti/36608.pdf). J.I. Hanoka, “Innovative Approaches to Low-Cost Module Manufacturing of String Ribbon Si PV Modules,” Phase II Annual Technical Progress Report, 1 April 2003–31 May 2004, NREL/SR-520- 36908, October 2004 (www.nrel.gov/docs/fy05osti/36908.pdf). L. Simpson, “Trajectory Oriented and Fault Tolerant Based Intelligent Process Control for Flexible CIGS PV Module Manufacturing Scale- Up,” Phase II, Annual Technical Report, March 2004, NREL/SR-520-36983, November 2004 (www.nrel.gov/docs/fy05osti/36983.pdf). J. Kalejs, P. Aurora, B. Bathey, J. Cao, R. Gonsiorawski, B. Heath, J. Kubasti, B. Mackintosh, M. Ouellette, M. Rosenblum, S. Southimath, G. Xavie, “EFG Technology and Diagnostic R&D for Large-Scale PV Manufacturing,” Annual Subcontract Report, 1 July 2003–30 June 2004, NREL/SR-520-37347, January 2005 (www.nrel.gov/docs/fy05osti/37347.pdf). H. Volltrauer, K. Jansen, “Productivity Enhancement for Manufacturing of Amorphous Silicon PV Modules,” Final Technical Progress Report, 1 July 2002–31 October 2004, NREL/SR- 520-37659, February 2005 (www.nrel.gov/docs/fy05osti/37659.pdf). T. Ellison, “Implementation of a Comprehensive On-Line Closed-Loop Diagnostic System for Roll- to-Roll Amorphous Silicon Solar Cell Production,” Annual Report-Year 2, 1 September 2003–31 August 2004, NREL/SR-520-37660, February 2005 (www.nrel.gov/docs/fy05osti/37660.pdf). J. Wohlgemuth, M. Narayanan, “Large-Scale PV Module Manufacturing Using Ultra Thin Polycrystalline Silicon Solar Cells”, Annual Technical Progress Report, 1 October 2003–30 September 2004, NREL/SR-520-37738, March 2005 (www.nrel.gov/docs/fy05osti/37738.pdf). Photovoltaic R&D Advanced Materials and DevicesPDF Image | DOE Solar Energy Technologies Program
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