Research Tracker

OLEDWorks will develop the cost-effective and scalable manufacturing methods needed to produce a high-performance, large-area OLED lighting panel and luminaire system. This work will help develop and integrate the cost effective manufacturing technologies necessary to achieve the DOE performance and cost targets.

Oak Ridge National Laboratory will demonstrate a high-efficiency refrigerator that uses novel rotating heat exchanger technology to reduce energy use. The technology could produce energy savings of approximately 13%, or 407 TBtu/year.

KLA-Tencor will develop, characterize, and verify a high-throughput, precision hot test tool for high-brightness light-emitting diodes (HBLEDs). The hot test tool will have an impact on the HBLED manufacturing process such that 2 quads of energy savings could be achieved at full market penetration.

Lumileds, LLC will develop an LED light engine that integrates a new low-cost, high-power chip and optimized drivers. This light engine will enable comprehensive luminaire system cost reduction.

QM Power, Inc. will develop advanced HVAC motors that are significantly more efficient and cheaper than current solutions for almost all electric motor compressor and fan applications. The technology will have the potential to save more than 0.62 quads of energy.

GE Global Research will build a scalable, efficient, modular luminaire to address the integration of driver, optics, and package in a flexible integration platform that allows for simplified manufacturing to customized performance specifications.

In this project, National Renewable Energy Laboratory (NREL) will partner with Robert Bosch, LLC and Colorado State University to develop and demonstrate a novel technology package which can overcome numerous adoption barriers and achieve energy savings as well as providing flexible demand-side management including demand response. The full scope of this project is to develop and demonstrate an innovative Home Battery System which provides electric energy storage and conversion, along with self-learning adaptive control signal outputs for appliances and reliable predictions for residential demand response. The team will develop and perform preliminary validation of customer identification program (CIP) requirements on the Home Battery System. The work will results in improved understanding of the system performance and cost tradeoffs. The project will make substantial progress toward a marketable product but may not result in a market-ready Home Battery System product.

The Home Energy Information Accelerator will demonstrate innovative policies and approaches to spur investment in energy efficiency across our homes, buildings, and industrial facilities.

Like a miles-per-gallon rating for a car, the Home Energy Score is an easy-to-produce rating designed to help homeowners and homebuyers gain useful information about a home's energy performance. Based on an in-home assessment that can be completed in less than an hour, the Home Energy Score not only lets a homeowner understand how efficient the home is and how it compares to others, but also provides recommendations on how to cost-effectively improve the home's energy efficiency.

Like a miles-per-gallon rating for a car, the Home Energy Score is an easy-to-produce rating designed to help homeowners and homebuyers gain useful information about a home's energy performance. Based on an in-home assessment that can be completed in less than an hour, the Home Energy Score not only lets a homeowner understand how efficient the home is and how it compares to others, but also provides recommendations on how to cost-effectively improve the home's energy efficiency.

Like a miles-per-gallon rating for a car, the Home Energy Score is an easy-to-produce rating designed to help homeowners and homebuyers gain useful information about a home's energy performance. Based on an in-home assessment that can be completed in less than an hour, the Home Energy Score not only lets a homeowner understand how efficient the home is and how it compares to others, but also provides recommendations on how to cost-effectively improve the home's energy efficiency.

Like a miles-per-gallon rating for a car, the Home Energy Score is an easy-to-produce rating designed to help homeowners and homebuyers gain useful information about a home's energy performance. Based on an in-home assessment that can be completed in less than an hour, the Home Energy Score not only lets a homeowner understand how efficient the home is and how it compares to others, but also provides recommendations on how to cost-effectively improve the home's energy efficiency.

Like a miles-per-gallon rating for a car, the Home Energy Score is an easy-to-produce rating designed to help homeowners and homebuyers gain useful information about a home's energy performance. Based on an in-home assessment that can be completed in less than an hour, the Home Energy Score not only lets a homeowner understand how efficient the home is and how it compares to others, but also provides recommendations on how to cost-effectively improve the home's energy efficiency.

The Home Improvement Catalyst (HI Cat) is a new DOE initiative focused on high impact opportunities to achieve energy savings in home improvements already planned or being undertaken by homeowners. The Home Improvement Catalyst is designed to identify the multiple pathways to achieving an energy efficient home through energy upgrades and speed the adoption of market-ready energy improvements; resulting in greater energy savings over time.

The Home Upgrade Program Accelerator is designed to help home energy upgrade programs bring services to more homes across the country by leveraging data management strategies that minimize costs while improving overall program effectiveness. These programs are currently completing hundreds of thousands of home upgrades annually with average savings of 20% for participating households.

The Home Upgrade Program Accelerator is designed to help home energy upgrade programs bring services to more homes across the country by leveraging data management strategies that minimize costs while improving overall program effectiveness. These programs are currently completing hundreds of thousands of home upgrades annually with average savings of 20% for participating households.

Carnegie Mellon University will design, implement, and evaluate a human-in-the-loop sensing and control system for energy efficiency of heating, ventilation, air conditioning (HVAC), and lighting systems based on a novel occupancy sensor. Through occupant sensing and real-time data collection, this project will reduce energy waste, targeting a 20% energy savings, while increasing occupant comfort by accurately estimating occupants in an area to overcome current HVAC system operations.

Throughout the development of the AVS resources and meta-analysis, HI Cat will conduct outreach to EPA, utilities, CEE, REEOs, and program implementers seeking to advance programs that advance high performance HVAC and QI practices. DOE is partnering with MEEA to collect data and evaluate the HVAC SAVE program (Iowa), test approaches to offering additional services, and develop a case study of the HVAC SAVE program in Iowa.

This project will combine electrochemical compression technology with ionic liquid desiccant to provide the most efficient means of managing latent and sensible heat loads in air-conditioning (AC) systems. This technology replaces the standard mechanical compressor commonly found today in AC systems with an electrochemical compressor that utilizes fuel cell technology to enable efficient heat pump systems.

The University of California, Santa Barbara, will identify the fundamental causes of current droop in state-of-the-art commercial LEDs. These findings will lead to development of higher-performing LED lighting technologies.

This project will test the effectiveness of innovative designs for demand response programs for residential customers using a behind-the-meter customer engagement platform developed by Chai Energy. Each of these innovative demand response strategies integrates a recent approach that energy researchers have shown to be effective in reducing customer consumption. These strategies include providing households with a) tailored energy-analytic feedback, b) aggregated versus single-period incentive information, c) non-financial environmental health benefit frames and d) social comparisons. An additional strategy will explore how the timing of the delivered demand response information affects the magnitude of household participation and response

This project will test the effectiveness of innovative designs for demand response programs for residential customers using a behind-the-meter customer engagement platform developed by Chai Energy. Each of these innovative demand response strategies integrates a recent approach that energy researchers have shown to be effective in reducing customer consumption. These strategies include providing households with a) tailored energy-analytic feedback, b) aggregated versus single-period incentive information, c) non-financial environmental health benefit frames and d) social comparisons. An additional strategy will explore how the timing of the delivered demand response information affects the magnitude of household participation and response

With a focus on typical business as usual HVAC trade practices, HI Cat seeks to capture greater efficiency at high volume within the home improvement transactions at key decision points. HI Cat will work in partnership with industry to design contractor ready resources via development of a Sequencing Tool that curates advisory content that can be applied during the sales transaction. The sequencing tool, designed for use by trade contractors, will identify opportunities to improve upon the current transaction in any given scenario, without disrupting it. Related resources, such as a contractor playbook, will provide ing relevant sales tools and tips; selection, specification, and field installation guidance; proposal and contract language; etc. It will also offer messaging about the energy efficiency pathway or customer journey, reference applicable DOE and industry technical standards/guidance and provide technical information to address follow on EE opportunities.

Trane, in partnership with the University of Illinois, will develop engineered microstructure surfaces that will reduce refrigerant leaks and enhance HVAC&R systems efficiency by improving the strength and quality of brazed joints.