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2003 2004 2005 2006 2007 27. Employ systems-driven approach to assess existing PV analysis tools and identify gaps. 58 17 59 60 systems. 52. Complete inverter model to simulate complex situations. 53. Develop long-term inverter test plan. 54. Complete statistical study of islanding probability. 55. Provide interim levelized inverter cost data from long-term field tests. 56. Collect field data and validate performance from inverters installed through 13 27 31 32 2829 12 30 33 34 systems-driven approach. 32. Complete fully populated performance and reliability database of PV Task 7: Systems Analysis Task 8: System Benchmarking and Validation and component level through field and laboratory exercises. 39. Deliver procedures for testing and evaluation of systems to improve 16 52 53 54 55 56 57 installing, and maintaining fielded PV systems and components 49. Deliver advanced PV system design tool. 50. Document progress toward making PV systems a viable energy option for 38 39 40 41 37. Issue updated DOE PV Subprogram 5-Year Technology Plan 38. Determine formats for all data to be collected for analysis at the systems 4243 14 44 performance and reliability. 40. Draft inverter test protocol. 41. Designate SWRES-SERES virtual lab as a university center of excellence Task 9: PV System Performance and Standards continue effort to quantify array degradation rates. 43. Begin formal testing and administration of the National Voluntary 49 46 4748 15 5051 Practitioner Certification Program. 44. Evolve inverter test protocol into a system test and measurement protocol. 45. Update system design and simulation tools to include documented failure Task 10: PV Technology Adoption and degradation rates at the component level. 46. Assess Million Solar Roofs Initiative, documenting successful partnership Task 11: Inverter Testing and Industry Support rural utility applications. 51. Establish new BIPV partnerships to develop new opportunities for PV Task 12: High Reliability Inverter Initiative 61 62 Inverter Initiative. 59. Complete Phase 2 (prototype development) of the High-Reliability Inverter Task 13: Inverter R&D 5-Year Plan Initiative. 60. Complete Phase 3 of the High-Reliability Inverter Initiative. 61. Develop Inverter R&D 5-year plan based on systems-driven approach. 62. Select next steps for inverter testing, modeling, and product development. 63. Complete HALT testing on new charge-controller designs. 64. Perform field validation of new charge-controller designs. 65. Complete database of charge controller/battery configurations. Task 14: Charge Controller and Energy Storage Improvements Solar Energy Technologies Program Multi-Year Technical Plan 66 63 64 65 35 36 37 systems installed in priority applications. 33. Facilitate revision of the U.S. PV Industry Roadmap for 2005-2025. 34. Issue revised DOE PV Subprogram 5-Year Technology Plan. 35. Document 25-year-lifetime systems. 36. Assess NCPV contributions toward building PV capacity and expanding 45 for PV systems studies. 42. Document performance-degradation rates of commercial PV modules, and 9 Go/No Go Decision Points 12. Identify priority markets to complete integrated analysis capability 13. Re-orient PV milestones based on systems analysis outputs. 14. Hand-off practitioner certification program to private sector. 15. Select partners for BIPV structures/designs 16. Select inverters for long-term testing. 17. Down-select partners for Phase 3 of High Reliability Inverter Initiative Milestones- Legend 28. Incorporate statistical analysis tools into systems-reliability database 29. Issue revised DOE PV Program 5-Year Technology Plan. 30. Complete an integrated analysis capability for flat-plate PV. 31. Review and revise all flat-plate PV milestones based on outputs of markets within the United States, leading to the 20-year U.S. PV Industry Roadmap goal of domestic markets gaining parity with burgeoning international markets. contracts. 47. Develop PV system qualification tests. 48. Produce a “best practices” guide regarding safety aspects of designing, the High-Reliability Inverter Initiative. 57. Complete long-term evaluations of fielded commercial inverters. 58. Develop next-generation inverter to complete Phase 1 of High-Reliability Technology DevelopmentPDF Image | Solar Energy Technologies Program
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