This presentation explains non-energy benefits from residential energy efficiency programs, including those associated with households, ratepayer or taxpayers, and societal benefits. Also presented is a framework for measurement and monetization of health benefits, economic benefits, and environmental benefits (e.g. avoided emissions) and a case study of New Jersey's Clean Energy Program.

This presentation summarizes the non-energy benefits of energy efficiency, and how they can be used to drive uptake of energy efficiency measures. State examples are included.

Property Assessed Clean Energy (PACE) programs provide affordable and accessible financing for home energy efficiency upgrades that improve value, comfort and durability, and create jobs. PACE is a scalable financing mechanism with over 50,000 projects and $1 billion invested in California, and multifamily housing projects in New York and other states. This session discussed successful PACE programs, designs, and FHA's guidance.

The benefits of energy efficiency upgrades beyond money and energy savings include non-energy benefits that are often not communicated well. Multiple non-energy benefits include lower home maintenance costs, improved air quality and less sick days for adults and children, greater resiliency, and lower emissions. This presentation covers examples of how your program can fully realize the potential from all of these multiple non-energy benefits.

Energy retrofits can harm or help resident health. Beyond preventing harm, this presentation covers how to use energy retrofits as an opportunity to improve the lives of your building residents and the surrounding community. It focuses on different ways that organizations are using energy efficiency to improve their communities through positive health outcomes and job creation.

This study provides an overview of practices for quantifying and reporting avoided energy-water costs from demand-side measures. It also summarizes the regulatory guidance for incorporating water savings into cost-effectiveness screening for energy efficiency programs.

State and local governments across the U.S. are focused on how clean energy can help them meet a variety of energy, economic development, and environmental goals. An early step for most energy efficiency planning involves identifying and quantifying energy savings opportunities, followed by understanding how to access this efficiency potential.  This website includes national and state-level energy efficiency potential studies for the residential, commercial, and industrial sector.  It introduces presentations on how building energy codes, city-led efforts, energy savings performance contracting (ESPC), industrial, and ratepayer-funded efforts can support state energy planning. 

This article highlights the importance of communicating to homeowners about the non-energy benefits of energy efficiency improvements such as better comfort, improved indoor air quality, reduced allergies, and a safer, healthy home. It also discussed that non-energy benefits are an undervalued and often overlooked component of energy efficiency upgrades and need to be a part of energy efficiency program's and contractors' sales strategies.

This report analyzes and develops estimates of non-energy impacts that could be included in cost effectiveness analyses for the EmPOWER Maryland energy efficiency programs. Four non-energy benefits are included in this analysis: air emissions, comfort, commercial operations and maintenance (O&M), and utility bill arrearages. In all four cases, a recommended value and methods for including them in future EMPOWER costs effectiveness analyses are provided.

To help inform and prompt discussion across a range of audiences on the health co-benefits from residential EE investments, this paper reviews research studies of residential EE and related ventilation upgrades, discusses ways that programs have monetized occupant health co-benefits, and highlights innovative programs that combine EE and health-focused home repairs. The paper concludes with identifying research gaps and strategies to help advance such work.

This literature review describes what is currently known about the occupant health benefits resulting from residential energy efficiency or work that is consistent with home performance upgrades. Of particular interest are the occupant health impacts associated with work typically conducted by the home performance industry, such as: air sealing and insulation; properly-sized, selected, matched, and installed energy efficient heating, ventilation, and air conditioning (HVAC) systems; identification and correction of moisture problems; proper whole house and room ventilation; lighting; and additional services including the replacement of appliances; measurement and installation of whole house and room air filtration systems (e.g., air purifiers); and basic pest exclusion. The intent of this literature review is to examine research that assessed work that would not be expected to harm residents or the workers.