HOMER Optimizer is a proprietary derivative free optimization algorithm that was designed specifically to work in HOMER.
Utilisation de homer pro pro#
A third storage option considered, hydrogen production is evaluated more expensive. HOMER Pro features our new optimization algorithm that significantly simplifies the design process for identifying least-cost options for microgrids or other distributed generation electrical power systems. Energy storage by mean of a fly-wheel or a lithium-ion battery are, in presence of 2 or 3 wind turbines, economic options for a power rating lower than 20% of the wind turbines rated power. It is calculated that each additionnal wind turbine is lowering the economic value of the project, as its integration rate is lower. About Press Copyright Contact us Creators Advertise Developers Terms Privacy Policy & Safety How YouTube works Test new features Press Copyright Contact us Creators. Based on those results, Homer Pro and RETScreen 4 softwares are used to calculate technical and economical performances of additionnal wind power and energy storage to this remote grid. In accordance with those performances, an internal return rate of 22,4% is calculated for the wind project.
Utilisation de homer pro software#
the k-means algorithm in R Statistics were used in the HOMER Pro software for a. For years to come, it should achieve its objective to produce 9,4 millions kWh of wind power, allowing annual fuel savings of 2,4 millions litres of diesel. geared towards effective utilization of the available energy from the. Homer was probably one of the first generation of authors who were also literate, as the Greek alphabet was. Located at Raglan mine site, the first industrial wind mill in Nunavik has produced a total of 8,3 millions kWh at his first operational year. Although attributed to Homer, The Iliad is clearly dependent on an older oral tradition and may well have been the collective inheritance of many singer-poets over a long period of time (the historical Fall of Troy is usually dated to around the start of the 12th Century BCE).
The high cost of electricity generation combined with the presence of strong winds in Canada’s Great North are creating a favorable context for wind-diesel implementation in remote electric grid.