Honeywell Acquires Rocky Research, A Technology Leader In Power And Thermal Management

PHOENIX, Oct. 7, 2020 /PRNewswire/ — Honeywell (NYSE: HON) has acquired privately held Rocky Research, a Boulder City, Nevada-based technology leader specializing in thermal, energy and power management solutions. This acquisition expands Honeywell’s existing, broad portfolio, which includes power generation systems, energy storage, and power and thermal management systems. It also combines Rocky Research’s proven research and development capabilities with Honeywell’s worldwide reach and engineering integration, test and production expertise.

The acquisition of Rocky Research positions Honeywell with an advanced capability in the fast-growing power and thermal management market. The combined, differentiated capabilities of Rocky Research and Honeywell will help reduce the size, weight, power and cost of thermal and power management and hardware systems. Rocky Research will be integrated into Honeywell’s Aerospace business.

“Rocky Research is an ideal addition to Honeywell’s expanding product portfolio. Effective cooling systems optimized for size, weight and power are critical to meet the growing

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Teledyne DALSA’s thermal imaging camera plays pivotal role in Nuvoola’s AI-powered elevated skin temperature screening solution

Nuvoola’s Luke AI Health Screening and Protection solution

Teledyne DALSA's Calibir GXF thermal camera is a critical component within the Nuvoola Luke AI HSP solution
Teledyne DALSA’s Calibir GXF thermal camera is a critical component within the Nuvoola Luke AI HSP solution
Teledyne DALSA’s Calibir GXF thermal camera is a critical component within the Nuvoola Luke AI HSP solution

WATERLOO, Ontario, Oct. 06, 2020 (GLOBE NEWSWIRE) — Teledyne DALSA, a Teledyne Technologies [NYSE:TDY] company, and global leader in digital imaging technology, is pleased to provide its new Calibir GXF thermal camera as a critical component within Nuvoola’s LUKE™ AI Health Screening and Protection (HSP) solution.

The new Calibir GXF model is optimized for elevated skin temperature detection with measurement accuracy and thermal stability better than +/-0.3°C with an external reference (as recommended by IEC80601-2-59). Like Calibir GXM models, the new GXF camera is NDAA, Section 889 compliant with IEC 80601-2-59-2017 certification pending.

Nuvoola’s LUKE™ AI Health Screening and Protection (HSP) solution is unique in using their artificial

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Better detection of microwave radiation will improve thermal imaging, electronic warfare, radio communications — ScienceDaily

Army-funded research developed a new microwave radiation sensor with 100,000 times higher sensitivity than currently available commercial sensors. Researchers said better detection of microwave radiation will enable improved thermal imaging, electronic warfare, radio communications and radar.

Researchers published their study in the peer-reviewed journal Nature. The team includes scientists from Harvard University, The Institute of Photonic Sciences, Massachusetts Institute of Technology, Pohang University of Science and Technology, and Raytheon BBN Technologies. The Army, in part, funded the work to fabricate this bolometer by exploiting the giant thermal response of graphene to microwave radiation.

“The microwave bolometer developed under this project is so sensitive that it is capable of detecting a single microwave photon, which is the smallest amount of energy in nature,” said Dr. Joe Qiu, program manager for solid-state electronics and electromagnetics, Army Research Office, an element of the U.S. Army Combat Capabilities Development Command’s Army Research Laboratory.

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US military eyes nuclear thermal rocket for missions in Earth-moon space

The U.S. military aims to get a nuclear thermal rocket up and running, to boost its ability to monitor the goings-on in Earth-moon space.

The Defense Advanced Research Projects Agency (DARPA) just awarded a $14 million task order to Gryphon Technologies, a company in Washington, D.C., that provides engineering and technical solutions to national security organizations.

The money will support DARPA’s Demonstration Rocket for Agile Cislunar Operations (DRACO) program, whose main goal is to demonstrate a nuclear thermal propulsion (NTP) system in Earth orbit. 

Related: Superfast spacecraft propulsion concepts (images)

NTP systems use fission reactors to heat propellants such as hydrogen to extreme temperatures, then eject the gas through nozzles to create thrust. This tech boasts a thrust-to-weight ratio about 10,000 times higher than that of electric propulsion systems and a specific impulse, or propellant efficiency, two to five times that of traditional chemical rockets, DARPA officials wrote in a

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Thermal Imaging Technology Helps Firefighters See Through Smoke

a person uses a video game-like controller to maneuver a camera's view on a computer screen. the person is doing it from inside the cabin of a plane
Heat from Oregon wildfires are detected and visualized on a monitor inside a plane using infrared thermal imaging technology. Credit: Kate Kaye

Wildfires are still raging out west, and states are using anything in their arsenals to fight back. This year, for the first time, Oregon’s Department of Forestry is using thermal imaging technology to see through thick smoke to the fires below. The state’s firefighting teams say this technology has been game-changing during this devastating wildfire season.

a small black camera attached to the wing of a plane
A thermal imaging camera device installed beneath a plane. Read a feature by Kaye from GeekWire. Credit: Kate Kaye

Thermal imaging technology uses infrared waves to detect heat, and then presents that information visually. These graphics make it possible to see exactly where the fire is moving, which areas are the hottest, and how much is actually burning. This information is crucial to firefighting teams on the ground, who can know with

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B&W Thermal Awarded Contracts Totaling More Than $15 Million for Emissions and Performance Upgrades at Taiwan Power Company Plant

Babcock & Wilcox (B&W) (NYSE: BW) announced that its B&W Thermal segment will design and supply industry leading low-NOx combustion technology and an innovative pulverizer system upgrade for Taiwan Power Company’s Taichung Power Plant in Longjing District, Taichung, Taiwan. The contracts total more than $15 million.

Four of the plant’s boilers were supplied by B&W in the 1990s. B&W Thermal will upgrade the combustion system for one unit, providing its custom-engineered AireJet® low-NOx burners. B&W Thermal’s AireJet burners offer significantly reduced nitrogen oxides levels compared to other low-NOx combustion technology, burning cleaner, with high boiler efficiency and improved plant heat rate. B&W Thermal will also convert the existing pulverizer systems on two units from B&W-89 to B&W-92 pulverizers to provide additional fuel grinding capability and efficiency, and will also provide DSVS rotating classifiers and associated equipment as part of these pulverizer system upgrades.

“B&W Thermal has

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