January 07, 2013
The capabilities of automatic optimization can help wind companies maximize the return on their investment.
The same sophisticated computer process that has been used to arrange a constellation of satellites in space or formulate trading strategies through multiple scenarios is also being used by the wind industry to site wind farms and turbines.
Multi-objective adaptive heuristic algorithms are computer instructions that automatically search project criteria and siting issues in an efficient manner to provide wind farm planners a set of near optimal solutions.
Siting a wind farm and individual turbines within the farm is critical to the project’s success. Siting, however, is far more complex than buying or leasing any available property and placing turbines randomly. For example, there is the availability of regular and considerable wind current to consider. Other issues include environmental and wildlife impacts, land ownership, existing infrastructure, proximity to utility lines, population density, topography, and the costs of clearing land and developing access roads.
Wind farm developers have found new Web-based computer software to be useful in navigating these complexities. geoAMPS, a technology company located in the Columbus, Ohio, area, has developed a product called altAMPS that automates much of the information essential to making siting decisions.
altAMPS is an industry-leading comprehensive solution for end-to-end management of wind and other alternative energy projects in a paperless environment. It is one of a series of products offered by geoAMPS.
altAMPS’ capabilities include the ability to run multi-objective adaptive heuristic algorithms. Also known as genetic algorithms, these computer instructions adapt Charles Darwin’s evolutionary model. The process interchanges design elements in hundreds of thousands of different combinations. Only the best-performing combinations are permitted to survive.
Wind turbines work best on high, exposed sites. Hilltops are ideal, as long as there is a flat area and suitable ground for the tower. The vicinity should be clear of obstacles which could interfere with the wind current or operation of the turbines.
Certain sites can be removed from consideration quickly based on federal, state and local government regulations and restrictions; land use and geological constraints; and adverse impacts on the environment or wildlife.
For those locations that pass those tests and are regarded as the best feasible sites, still more data is required, such as availability of wind, land ownership, proximity to utility lines, topography, infrastructure, population density and site preparation costs.
An important preliminary procedure in siting is placement of one or more meteorological (met) towers. With attached anemometers and wind vanes, these towers measure wind speed and direction specific to the site under consideration. At least one year of collected met data is recommended.
Sorting through the complexities of siting a wind farm, one or more met towers, and multiple wind turbines is a difficult process. Meanwhile, substantial investment is on the line. Developers resort to various means to arrive at what they hope will be the best siting decisions.
Some companies still work from pencil, paper and calculator. This process is unlikely to result in optimal siting. As more factors are taken into account – such as wind speed, costs and regulations – the metrics and rules grow exponentially. This traditional approach quickly becomes unsustainable.
Other companies use a semi-manual process. Through computer-assisted design, wind farm developers simulate possible locations through a geographical information system (GIS) interface. They gain instant feedback with each minute change to the spatial orientation of the turbines. This feedback includes values of desired calculated metrics. It red-flags certain locations when any siting rules defined at the outset are violated.
There are, however, countless possible placements of turbines within a proposed wind farm. This fact can make this approach, although superior to the manual process, too time-consuming and inefficient. Even after such a long, arduous process, the wind farm company may not have arrived at the best siting options.
An automated approach takes the guesswork out of siting. altAMPS runs multi-objective adaptive heuristic algorithms that automatically search the solution space and efficiently provide planners with a near optimal solution that can statistically be guaranteed.
Planners define areas of interest and project objectives and rank factors on a weighted scale of importance. Met tower and GIS data is included. When GIS data is integrated into altAMPS, the mapping data can be applied to information from local agencies and third-party providers. Planners learn quickly about zoning or government restrictions. They obtain information about environmental or wildlife impacts, topography, weather patterns, infrastructure, population density and utilities. Title information on individual parcels, which previously took days to research at the county courthouse, is available instantaneously and can greatly speed the right of way negotiation process.
The software performs a directed search and determines several siting solutions, numbering them in the order of best fit.
This automated approach can eliminate nearly all the time spent developing wind farm layouts and transform it into evaluating optimized layout and choosing the one that best suits project needs. If underlying factors change, re-evaluating the options is a simple change requiring minimal re-work.
A wind farm project represents a significant investment of time and resources. The capabilities of automatic optimization can help wind companies maximize the return on that investment.
Dan Liggett is Communications and Public Relations Manager for geoAMPS, a technology company located in the Columbus, Ohio, area that provides software solutions to manage land rights and infrastructure assets. For more information call 614-389-4871 or visit www.geoamps.com.
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