Hydropower, Offshore, Project Development, Wind Power

Lockheed Martin Gets Offshore Wind Radar Contract, OTEC Grant

Lockheed Martin this week said that it will deliver a long-range air surveillance radar system to the United Kingdom that will overcome sensor performance issues commonly caused by the rotating blades of wind turbines. The new radar system will provide reliable air defense surveillance capabilities for the U.K. Ministry of Defense (MoD) and allow the nation to move forward with aggressive plans to install some 924 turbines along England’s east coast.

The radar will provide surveillance over five planned wind farms in the Greater Wash Strategic Area, Sheringham Shoal, Race Bank, Dudgeon, Triton Knoll and Docking Shoal, that are expected to generate more than 5,500 megawatts of sustainable power.

Under contract with Serco, Lockheed Martin will deliver this new TPS-77 system by November 2011. In the U.K., Serco has served as Lockheed Martin’s in-country Contractor Logistic Support partner for the MoD’s FPS-117, or Type 92 radars, delivering greater than 98 percent operational availability.

“Lockheed Martin continually incorporates state of the art technology into its TPS-77 and FPS-117 family of ground-based radars,” explained Carl Bannar, vice president and general manager of Lockheed Martin’s Radar Systems business. “This investment allows us to provide new capabilities and enhanced performance for customers while leveraging the field proven architecture and 30 years of operational experience with our family of long range radars.”

In a related story, the U.S. Department of Energy recently selected Lockheed Martin to receive two grants totaling US $1 million to advance the technology commercialization of Ocean Thermal Energy Conversion (OTEC). The grants support the company’s effort to produce an economically viable, utility-scale renewable energy source leveraging the temperature difference of the ocean’s warm surface water and colder water below.

Under the first grant, Lockheed Martin will develop a tool to estimate the amount of energy that can be extracted from the ocean’s thermal layers. The geographic information system-based dataset and software tool will be used to identify regions of the world viable for OTEC and seawater-based air conditioning (SWAC). The resulting resource mapping will provide critical information to policy makers, the energy industry and the public about regional OTEC and SWAC feasibility.

SWAC, which uses cold seawater located near coastlines to supply air-conditioner coolant, has the potential to significantly reduce electric utility loads during high summer demand periods and is a proven technology currently in use in Hawaii, Bora Bora, Stockholm and Ottawa.

Under the second grant, Lockheed Martin will develop estimates of performance and life-cycle costs associated with utility-scale OTEC systems to demonstrate the economic feasibility of such projects. The resulting data will provide justification for pursuing commercialization of OTEC and generate investment interest in this stable, renewable energy source.

“The Department of Energy awards provide Lockheed Martin the opportunity to further demonstrate the capability of OTEC,” said Jeffrey Napoliello, vice president of Lockheed Martin’s New Ventures line of business. “As a self-sustaining energy source, with no supplemental power required, OTEC will help our nation and our military achieve their renewable energy goals.”

The Department of Energy grants follow an $8.12 million Department of Defense award to Lockheed Martin in September 2009. That contract from the U.S. Naval Facilities Engineering Command calls for development of critical OTEC system components and further matures its design for an OTEC pilot plant, an incremental step in developing large-scale utility plants.

In 2008, Lockheed Martin received a $1.2 million Department of Energy contract to demonstrate how special cold water piping could be fabricated to carry the large volumes of seawater required to produce commercial power.

Lockheed Martin’s experience with OTEC technology dates back to the 1970s when the company built “Mini-OTEC.” This early prototype remains the world’s only floating OTEC system to generate power in excess of what is required for self-sustainment. Since that time, Lockheed Martin has continued to mature and validate the critical technologies necessary for an OTEC system that could generate a utility-scale power supply.