Research Tracker

The Institute for Market Transformation will investigate whether investing in statewide building energy code education, training, and outreach programs can produce a significant change in residential building code compliance rates. The results of these activities provide the necessary business case to influence non-government entities, particularly utilities, to make investments in similar programs, which could lead to substantial national energy savings.

Clemson University, with their partners Harvard University, Phase IV Engineering Corp., and Iowa Energy Center, will develop, demonstrate and pre-commercialize low-cost, digital plug-and-play, passive radio frequency identification sensors for measuring indoor and outdoor temperature and humidity, which will improve building operations and cut energy costs.

The objective of this project to develop and commercialize white and amber OLED lighting solutions that are uniquely tailored to the health care industry, ranging from hospital to senior assisted living centers. This project will include five main deliverables: 1) Voice of customer (VOC) exploration with hospital and healthcare personnel including nurses, facilities and other medical staff to identify lighting applications in which OLED would provide unique value. 2) Tuning amber OLED panels, if necessary for large scale production specifically for healthcare, 3) Designing and fabricating OLED fixture prototypes based on VOC 4) obtaining feedback from medical staff on prototypes including performance and effects on workflow, patients or other concerns and define launch product 5) establishing path for full commercialization of product(s).

The National Trust for Historic Preservation will provide low-cost energy efficiency services to small businesses in California, Wisconsin, New York, and Washington State. These efforts aim to increase small business participation in energy retrofit programs and could lead to up to $30 billion in annual energy savings.

Carnegie Mellon University will develop, deploy, test, and refine an open-source and open architecture software platfordm for secure building managemener applications, specifically tailored towards small- and medium-sized buildings.

High performance, low-load homes face unique space conditioning challenges that are not adequately addressed by HVAC design practices and equipment offerings. Equipment manufacturers have yet to include a diverse set of low-capacity equipment in their product offerings due to a lack of understanding of (1) where the low-load home market is headed and (2) the load profiles typical to low-load homes. This project looks to address both of these information gaps and ultimately send the necessary low-capacity equipment market signals to manufacturers, enabling them to design better products to meet production builder needs. The team will develop a technical whitepaper and presentation on the performance and cost tradeoffs of various equipment types/systems at meeting the comfort requirements of low-load homes, and forecasting the market penetration and equipment needs for these low-load homes.

NYSERDA has been a strong supporter of ASSIST since its inception in 2002. This has helped New York State to remain on the cutting edge of this quickly advancing technology. To continue to help to prepare New York State manufacturers, consumers, lighting specifiers and decision-makers for the solid-state lighting market, the LRC is seeking to continue NYSERDA's membership in ASSIST and is seeking funding from NYSERDA to support the continued development of metrics and standardized measurement methods for LEDs, LED systems, and LED luminaires.

Home Innovation Research Labs, Inc. will study a new approach to roof insulation retrofits that can be installed in one step and result in semi-conditioned attics. Findings from this project could play a critical role in improving the efficiency of home heating and cooling, which typically account for 40% of a home's energy consumption.

This project entails the measurement of time-integrated concentrations and temporal profiles of humidity and established contaminants of concern in a minimum of 64 new homes located in cold and marine climate zones.

This project is part of a national study aimed at characterizing indoor air quality in occupied homes. The homes will be up to current energy codes, and researchers will closely monitor the use and performance of mechanical ventilation systems in those homes. Indoor and outdoor air will be sampled for formaldehyde, nitrogen oxides, carbon dioxide, and particulates as part of the indoor air quality characterization.

Does the combination of high use alerts and e-mail messages produce higher energy savings over just the home energy reports (HERs)? We would like to understand the level of effort it takes to launch this type of project. Cowlitz PUD in conjunction with O Power is conducting research to determine the incremental energy saving impact of an Advanced Digital Feedback and Communication Campaign in addition to O Power's Home Energy Reporting Program. Cowlitz will send 25,000 Home Energy Reports (HERs) to their customers while engaging 12,500 of them through an Advanced Digital Campaign using high use alerts and e-mail messaging. The HERs program uses billing data, census data, and other information to create a neighbor-to-neighbor billing comparison to try and change human behavior resulting in kilowatt hours saved. The hypothesis is that the customer will be moved to use less energy, operate their home more efficiently or to make no-cost, low-cost, or deemed measure changes in their home if they can compare their use with like customers. The Advanced Digital Campaign is experimental. Cowlitz is one of just a few utilities testing this approach. Research results will be available in August of 2013. Improvement over previous research: Cowlitz has advanced metering infrastructure (AMI) and will be able to provide 24-hour interval data making this the first time in the Northwest that HERs has been combined with interval data.

Does the combination of the O Power's Home Energy Reports (HERs) and the Social Energy social media application create incremental energy savings impacts? This project seeks to determine the incremental energy saving impact of Social Energyan energy efficiency social media application. Social Energy enables users to compare their energy use to a self-defined group. This Social Energy Campaign is experimental. Clark is one of a few utilities testing this approach. This study will combine the Social Energy media application along with O Power's Home Energy Reporting Program. Clark will send Home Energy Reports (HERs) to 20,000 customers while engaging 10,000 of these customer through Social Energy. This application will allow Clark's customers to create their own online efficiency communities. The project has been implemented, evaluation program done during 2014 to understand the program's impact on energy savings. Improvement on previous work: Testing this application with a smaller NW utility and understanding what level of effort is involved in launching this type of program as well as determining the savings impact.

During BPA's 2016 Multifamily Technical Advisory Group, this technology was evaluated and recommended for future research. BPA is joining with NEEA and Ecotope to conduct a bench test to determine if this will be a viable alternative to conduct future field tests in the Pacific Northwest. The bench test will be document the system performance and noise levels to determine if the unit is ready for more lab and field tests.

This project will develop test procedures for alternative refrigerants for flammability and energy savings characterization and to develop a “favorability” index of end-use market segments and equipment types based on potential GHG savings impact and commercial feasibility and adoption.

This research project is focused on opportunities for achieving near-term energy efficiency gains in heating appliances, specifically integrated systems that combine low ambient heat pumps and high efficiency oil-fired boilers. The Contractor shall conduct field studies in order to better understand how these hybrid systems are currently being installed and operated. Following the field studies, an analysis effort shall be undertaken in order to quantify the effect of a heating system's components performance, sizing, and control strategies on annual energy performance. The Contractor shall then develop a Best Practices Guide for hybrid heat pump/oil-fired boiler systems. The project concludes with the dissemination of the Best Practices Guide as well as the publication and conference presentation of any technical papers developed from the laboratory evaluation.

This research project is focused on opportunities for achieving near-term energy efficiency gains in heating appliances, specifically high-efficiency, low-cost, boilers with integrated tankless coils for domestic hot water. The project begins with an evaluation of commercially available tankless coil boilers and potential low-cost technical improvements. The Contractor shall evaluate the performance of (6) of these boilers in a laboratory setting in order to evaluate the thermal, seasonal, and annual efficiency. Following the laboratory evaluation, the Contractor shall develop a Best Practices Guide for Tankless Coil Boilers. The project concludes with the dissemination of the Best Practices Guide as well as the publication and conference presentation of any technical papers developed from the laboratory evaluation.

The city of Milwaukee will demonstrate retrofit approaches, including bundled energy efficiency retrofits paired with emerging finance mechanisms, in up to 200 commercial buildings across Wisconsin. These demonstrations could lead to increased adoption of energy efficiency technologies throughout the state.

The Better Buildings Residential Network connects energy efficiency programs and partners to share best practices and learn from one another to increase the number of homes that are energy efficient. Better Buildings Residential programs and partners have invested more than $3 billion from federal funding and local resources to build more energy-efficient communities across the United States. The U.S. Department of Energy (DOE) is continually expanding this network of residential energy efficiency programs and partners to new members.

The Fraunhofer Center for Sustainable Energy Systems will develop a plastic foam for use in U.S. buildings that is less expensive, mechanically stronger, and more environmentally friendly than current options. This foam will satisfy fire safety codes without the need for fire retardants and is easy to install.

The Institute for Market Transformation will partner with local chambers of commerce to help small business landlords and tenants improve the energy efficiency of their buildings. The Institute for Market Transformation will work with local chamber of commerce to audit 400 buildings.

BPA completed four installations of the rooftop unit (RTU) Catalyst unit, a packaged controls technology providing variable frequency drive (VFD) and demand control ventilation (DCV). These controllers were retrofits for packaged HVAC systems on four BPA buildings. Installations were completed during 2014.

The project uses climate change simulations to produce modeled conditions that disrupt electricity system generation, renewable capacity potential, and demand for the years of 2030, 2040, and 2050. The combined effect of these impacts is then simulated on the electricity system using an integrated electric grid modeling platform.