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Catching Rays: NCAR Team to Create 36-Hour Forecasts of Solar Energy
Green Technology Featured Articles
February 22, 2013

Catching Rays: NCAR Team to Create 36-Hour Forecasts of Solar Energy

By Cheryl Kaften
TMCnet Contributor

Should you bring your umbrella or your parasol? Research now being conducted at the Boulder, Colorado-based National Center for Atmospheric Research (NCAR) eventually will answer that question, as well as predict the exact type and duration of cloud cover at a specific location more than a day in advance.


Applying its atmospheric expertise to solar energy, the federally funded research and development center is spearheading a three-year, nationwide project to create unprecedented, 36-hour forecasts of incoming energy from the Sun.

The research team is designing a prototype system to forecast insolation of specific solar facilities— and resulting power generation— every 15 minutes, thereby enabling utilities to continuously anticipate the amount of available solar energy. The work, funded primarily by a $4.1 million U.S. Department of Energy grant, will draw on cutting-edge research techniques at leading government labs and universities across the country, in partnership with utilities, other energy companies, and commercial forecast providers.

Much of the focus will be on generating detailed data on the presence of clouds and atmospheric particles that can reduce incoming energy from the sun.

“It’s critical for utility managers to know how much sunlight will …[reach] solar energy plants in order to have confidence that they can supply sufficient power when their customers need it,” commented Sue Ellen Haupt, director of NCAR’s Weather Systems and Assessment Program and the lead researcher on the solar energy project. “These detailed cloud and irradiance forecasts are a vital step in using more energy from the Sun.”

Because large amounts of electricity cannot be stored in a cost-effective manner, power generated by a solar panel or any other source must be promptly consumed. If an electric utility powers down a coal- or natural gas-fired facility in anticipation of solar energy, those plants may not be able to power up fast enough, if clouds roll in. The only option in such a scenario is to buy energy on the spot market, which can be very costly. Conversely, if more sunshine reaches a solar farm than expected, the extra energy can go to waste.

“Improving forecasts for renewable energy from the Sun produces a major return on investment for society,” says Thomas Bogdan, president of the University Corporation for Atmospheric Research, which manages NCAR on behalf of the National Science Foundation. “By helping utilities produce energy more efficiently from the Sun, we can make this market more cost competitive.”

What’s more, once the process is perfected it also will used for many other applications—among them, predicting pavement temperatures for the use of airport managers, road crews, and professional race car drivers.

A Shadow of a Chance

The project takes aim at one of the greatest challenges in meteorology: accurately predicting cloud cover over specific areas. In addition to helping utilities tap solar energy more effectively, detailed cloud predictions can also improve the accuracy of shorter-term weather forecasts.

But predicting clouds, which are created by microscopic droplets of water or ice, is notoriously difficult. Clouds are affected by a myriad of factors, including winds, humidity, sunlight, surface heat, and tiny airborne particles, as well as chemicals and gases in the atmosphere.

Solar energy output is affected not just by when and where clouds form, but also by the types of clouds present. The thickness and elevation of clouds affect the amount of sunlight that reaches the ground. Wispy cirrus clouds several miles above the surface, for example, block far less sunlight than thick, low-lying stratus clouds.

To design a system that can generate such detailed forecasts, NCAR and its partners will marshal an array of instruments, including lidars (which use laser-based technology to take measurements in the atmosphere); specialized computer models; and mathematical and artificial intelligence techniques.

Central to the effort will be three total sky imagers in each of several locations, which will observe the entire sky, triangulate the height and depth of clouds, and trace their paths across the sky.

The team will test these advanced capabilities during different seasons in several geographically diverse U.S. locations: the Northeast, Florida, Colorado/New Mexico, and California. The goal is to ensure that the system works year round in different types of weather patterns.

Paving the Way

Once the system is tested, the techniques will be widely disseminated for use by the energy industry and meteorologists. One application for such detailed forecasts could be short-term predictions of pavement temperatures. Such information would be useful to airport managers, road crews, and professional race car drivers.

“Pavement temperatures make quite a bit of difference in how tires grip the surface,” says Sheldon Drobot, deputy director of NCAR’s Weather Systems and Assessment Program. “This has substantial safety implications.”

NCAR is launching the solar project with numerous partners in the public and private sectors. These include:

  • Government labs: National Renewable Energy Laboratory, Brookhaven National Laboratory, the National Oceanic (News - Alert) and Atmospheric Administration’s Earth System Research Laboratory, and other NOAA facilities;
  • Universities: The Pennsylvania State University, Colorado State University, University of Hawaii, and University of Washington;
  • Utilities: Long Island Power and Light, New York Power Authority, Public Service Company of Colorado, Sacramento Municipal Utility District (SMUD (News - Alert)), Southern California Edison, and the Hawaiian Electric Company;
  • Independent system operators: New York ISO, Xcel Energy, SMUD, California ISO, and Hawaiian Electric; and
  • Commercial forecast providers: Schneider Electric (News - Alert), Atmospheric and Environmental Research, Global Weather Corporation, and MDA Information Systems.

Computing time will be provided by the New York State Department of Economic Development's Division of Science, Technology and Innovation on an IBM (News - Alert) Blue Gene supercomputer at Brookhaven National Laboratory on Long Island, New York.

The project expands NCAR’s focus on renewable energy. NCAR designed a highly detailed wind energy forecasting system with Xcel Energy, a utility based in Minneapolis, which saved ratepayers an estimated $6 million in a single year. The center also is creating advanced prediction capabilities to enable wind farm developers to anticipate wind energy potential anywhere in the world.

The University Corporation for Atmospheric Research manages the National Center for Atmospheric Research under sponsorship by the National Science Foundation. Any opinions, findings and conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.




Edited by Brooke Neuman


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