Research Tracker

The University of Florida will develop a technology for compact, low-cost combined water heating, dehumidification, and space cooling. This technology has the potential to save 480 TBtu/year in water heating and an additional 135 TBtu/year by reducing the air conditioning load.

The Industrial Science & Technology Network, Inc. will develop an environmentally clean, cost-effective building insulation with superior performance. Commercialization of this technology would reduce U.S. energy consumption related to building envelope components by 7%, equal to $8 billion in annual economic savings.

Lawrence Berkeley National Laboratory will identify an alternative method to estimate two difficult-to-measure inputs used in building energy modeling. The end product will simplify and help automate the process of creating a calibrated model for existing buildings.

Seventhwave's Accelerate Performance scales owner demand for energy performance at a cost comparable to current construction by eliminating key market bariers. This program will achieve an average of 50% realized savings compared to traditional 30% modeled savings for aggressive new construction projects.

Argonne National Laboratory will develop an acoustic method of measuring the infiltration of a building envelope. The method will enable infiltration measurement of all buildings, which could lead to decreased building energy use.

Oak Ridge National Lab (ORNL), with its partner 3M, is developing adhesive chemistries for bonding aluminum and copper during heat exchanger manufacture, resulting in enhanced bonding and significant energy savings.

This work will determine the savings and the cost-effectiveness of advanced rooftop unit controller (ARC) Light Retrofits. This work will support a new evaluated measure through the development of a Standard Protocol, based on 38 Zeros meters and the ARC retrofit fan-only analysis. Utility grants will fully fund the installation of up to 30 ARC Light Retrofits, where 38 Zeros meter installations are also fully funded, with one-year of data hosting. (ARC Light Retrofits are expected to cost around $2,000, while the 38 Zeros meter installations are expected to cost around $1,500, including one year of data-hosting and retrieval of the 38 Zeros meter.) All grants will be paid by 9/15/15 because of the inability to spend money in the new rate period. Based on EER feedback, utilities will claim self-funded (non-EEI) savings as FY15 custom projects.

BuildingIQ, Inc. will optimize HVAC energy use across commercial buildings using a cloud-based software application that automatically adjusts temperature set points to reduce energy consumption. This software could reduce HVAC-related energy use in commercial buildings by 12% - 25%.

The goal is to develop a standard protocol to verify site-based savings for advanced rooftop unit (RTU) control (ARC) retrofits, based on manufacturer variable frequency drive (VFD) data. This will streamline the acquisition of 1 aMW of ARC retrofits and lower the cost of the impact evaluation. This project will draft a standard protocol to verify ARC retrofit site-based savings using Catalyst controller data. The project will compare best practice (unit-level, true-power over one-year with daily baseline cycling, as reported in Pacific Northwest National Laboratory (PNNL) study) and four simplified savings methods, to determine a simplest-reliable method. Deliverables include a draft protocol and presentations to the RTUG and, if appropriate, to the RTF. Once approved, the standard protocol would allow the streamlined acquisition of ARC retrofits because baseline metering and long-term baseline cycling would not be required. Once 1 aMW of ARC retrofits (approximately 1,000 RTUs) are reported, several years of Catalyst controller data would be available for most of the units for the impact evaluation. Using the standard protocol and manufacturer data, no post-post cycling or additional instrumentation, such as Wattnodes for unit-level true-power, will be required.