![]() Composite Reflectivity (NCR/37)Ī display of maximum reflectivity for the total volume within the range of the radar. When the FAA updated TDWR between January 2017 and May 2019, the elevation angle of this product became the same as the lowest elevation Reflectivity product (TR0 or TZ0). Long Range Digital Base Reflectivity (TZL/186)ĭigital Reflectivity data are measured at an elevation angle of 0.6 degrees with a maximum range of 225 nm. Data for the three lowest elevation angles are available, with a maximum range of 48 nm. These products are used to estimate wind speed and direction, locate boundaries, locate severe weather signatures, and identify suspected areas of turbulence. Cool colors (green) represent negative values and warm colors (red) represent positive values. Digital Base Velocity (TV0, TV1, TV2/182)Ī measure of the radial component of the wind either toward (negative values) or away from (positive values) the radar. The three lowest elevation angles are available with a maximum range of 48 nautical miles (nm). These products are used to detect precipitation, evaluate storm structure, locate boundaries, and determine hail potential. Digital Base Reflectivity (TR0, TR1, TR2/181 or after TZ0, TZ1, TZ2/180)Ī display of echo intensity measured in dBZ. The company is headquartered in Louisville, KY, with research and development operations in Raleigh, NC.General products include Base Reflectivity and Base Velocity as well as graphical products derived from algorithms including Spectrum Width, Vertically Integrated Liquid, and the Velocity Azimuth Display (VAD) Wind Profile. Climavision is backed by The Rise Fund, the world’s largest global impact platform committed to achieving measurable, positive social and environmental outcomes alongside competitive financial returns. ![]() ![]() Climavision’s revolutionary new approach to climate technology is poised to help reduce the economic risks of volatile weather on companies, governments, and communities alike. Attribute all assets to Climavision.Ĭlimavision brings together the power of a proprietary, high resolution weather radar and satellite network, combined with advanced weather prediction modelling and decades of industry expertise, to close significant weather observation gaps and drastically improve forecast speed and accuracy. Members of the media can download photos and video of the radars, as well as a map demonstrating the coverage gap here: Climavision NC Media Assets. The company plans to have 30 radars operational by the end of the year, scaling the network to more than 200, covering low-level gaps across the country. ![]() Scotland County EMA expects to have real-time data from the new radar in Wagram within 4-6 weeks, and Climavision is already at work on additional radars in other states. But there are many other parts of the country that will benefit from this technology as the network expands.”Ĭlimavision radar installation in Wagram, NC “The gap in North Carolina covers more than three million people, which is why our first radar went in near Charlotte. “Any gap in radar coverage is significant, because it could potentially put lives and property at risk,” said Chris Goode, co-founder and CEO of Climavision. ![]() While all warnings and notices will continue to come through official National Weather Service channels, the system will provide critical visibility enabling commercial forecasters and emergency officials to better plan, prepare, and respond to volatile weather situations. That’s why Climavision stepped in with a state-of-the-art private sector solution to fill the gap.Ĭlimavision’s dual-polarization, X-Band weather radar is designed specifically to fill these gaps to provide the highest resolution view of what’s happening nearest to the ground. Numerous efforts to add more government radars in North Carolina have failed to secure funding, while increasingly volatile weather has made the need even more critical. This leaves some areas - including Charlotte, the Piedmont Triad and much of Central North Carolina - exposed to weather phenomena that often happens in the lower atmosphere such as flash flooding, sleet, ice, and tornadoes. However, gaps can exist between these systems as the radar beam moves higher in the atmosphere the further it gets from the radar location. Since the 1990s, the National Weather Service has monitored severe weather over North Carolina using NEXRAD S-band radars. Climavision installation closes critical NC radar gap ![]()
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