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Bahri Uzunoglu
Associate Professor of Energy Technology
Uppsala University, Division of Electricity
Angstrom Laboratory
Lägerhyddsvägen 1, 524 Uppsala
bahriuzunoglu@computationalrenewables.com
Cell: (734)-606585
Phone: (498)-299195

Solutions for Utilities

Computational tool development for wind resource assessment and long-term power production forecasts that enable those with financial interest to better structure financial deals and make decisions with confidence. Computational tool development to ensure projects are sited optimally, evaluate the risk and rewards of resource variability during the due diligence process,

Forecasting

  • Computational tool development for delivering highly-accurate and reliable forecasting services for wind farm owner/operators, energy traders, regulators, utilities and electrical grid operators;
  • Computational tool development for forecasting evaluation and improvement;
  • Computational tool development for producing monthly forecast performance reports and reconciliations;
  • Computational tool development for producing daily meteorological summaries for wind plant operations;
  • Computational tool development for researching and developing new modeling methods with mesoscale and statistical models; and
  • Computational tool development for meeting with clients and presenting research at industry workshops and conferences.

Operational assessments

  • Computational tool development for SCADA Management
  • Computational tool development for Energy Assessment (Wind Farm vs. By Turbine)
  • Computational tool development for Wind Farm Monitoring and Diagnostics
  • Computational tool development for Production Forecasting

Power Performance Test

  • Computational tool development for interpreting power curve warranty requirements and implications for tests
  • Computational tool development to specify met equipment and installation configurations
  • Computational tool development for inspecting project sites and install measurement equipment
  • Computational tool development for analyzing wind and other climatic data
  • Computational tool development for conducting statistical uncertainty analyses
  • Computational tool development for analyzing waked sectors and terrain
  • Computational tool development for conducting site calibration analyses
  • Computational tool development for conducting power curve testing analyses

Wind Farm Design Tools

  • Computational process development for extreme wind speeds , ambient and wake induced turbulence intensity, wind shear and temperature range.
  • Computational tools for configuring and optimization of wind farm layouts while factoring-in site-specific constraints and wind resource characteristics;
  • Computational tools for supporting project developers in the design and optimization of layouts for marine energy farms.

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