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Research Tracker

This tool is intended for researchers and program managers to quickly find research projects around the country that are relevant to their work. The four organizations who provided content for this purpose represent the largest energy efficient buildings research portfolios in the country. These organizations each provided the content that they were comfortable sharing publically. Therefore, upon clicking on a particular project, it is possible that certain pieces of content are not present. Where possible, a point of contact is provided so that specific questions can be directed to that person. We welcome your comments! If you would like to provide any feedback on this tool (positive or constructive) please email basc@pnnl.gov.

Showing results 1 - 4 of 4

Development of supersonic nozzle to improve effectiveness of steam heating and reduce pumping requirements.

Hudson Fisonic will develop, design, manufacture, and install FDs for space heating and domestic hot water at the Woolworth building (57 stories, 900k ft2). The performance of the FD will be monitored for 12 months to determine the steam and potable water savings from use of this technology. Hudson Fisonic will start the commercialization of the FD technology by engaging the manufacturer - Division LLC Corporation, located in Long Island City, New York, in fabricating and preparing the necessary facilities and equipment for commercial manufacturing of FDs

Market Focused Commercial and Multi-Family Water Heating and Power

The Contractor seeks to baseline test, install, and evaluate the performance of a 21kW micro-CHP system, that provides hot water and power as a packaged unit, at (2) Host Sites in NY. The proposed System shall feature a synchronous generator and black-start capability. The goal of the project is to provide manufacturers, building owners, and installers information regarding the deployment of micro-CHP systems, in order to promote a sustainable market for micro-CHP systems in NY. Once the Host Sites are selected, the System shall be independently tested and configured and the Host Sites shall be prepared for the proper integration of the Systems on-site. The Systems shall be installed and monitored for 12 months before developing a report to disseminate to the stakeholders.

Natural Gas Fired Heat Pump for HVAC and DHW based on the Vuilleumier Thermodynamic Cycle

This project will develop a TL-N heat pump that will incorporate several substantial innovations to improve efficiency, reduce complexity and manufacturing cost and place TL-N at an attractive price point compared to traditional building HAC-HW systems. The goal of this project is to complete the research and development necessary to redesign the purely mechanical system previously developed into an advanced mechanical/electronic or mechatronic system, and will produce two working prototypes. The design, build, and testing of these prototypes will be accomplished in this effort. The TL-N mechatronic-driven system will incorporate several innovations to improve performance and reduce costs. These include an ultra-low-emission combustion burner, electronically-controlled actuators for cycle efficiency improvement, and innovative heat exchangers. Adaptation of these low cost mature technologies into the heat pump design will significantly increase operational efficiencies of the thermodynamic process while reducing cost.

Proof of concept testing of low swirl burner for on-demand water heaters

Although on-demand water heaters are 37% more efficient than storage water heaters, they are significantly more expensive. The increased cost results from use of multi-stage burner banks that require complex electronic controls. Lawrence Berkeley National Laboratory's (LBNL) Low Swirl Burner (LSB) could reduce burner complexity for these appliances. Manufacturing costs may be reduced if LBNL's LSB technology is successfully applied to on-demand water heaters. LBNL performed laboratory testing to confirm the technical suitability of the LSB for on-demand water heaters across relevant product specifications.