Energy Efficiency Has Mass Appeal

CMU offers measurable energy efficiency
across climates and building types

SOURCE: RCP Block & Brick

Energy efficiency in masonry design comes from the behavior of the whole wall system. CMU provides thermal mass, air control continuity and moisture resilience, while supporting insulation flexibility that helps buildings meet modern energy targets with fewer layers and less complexity.

Built-In


Performance of CMU

CONSISTENT THERMAL PERFORMANCE
CMU absorbs and slowly releases heat, reducing temperature swings and shifting heating and cooling loads to off-peak hours, improving energy efficiency without added insulation.

Tests show concrete (heavy-mass) homes use 15.5% less energy for heating than light-frame homes and reduce hot, uncomfortable hours by more than 70%. In warm climates, thermal mass dampens heat flow; in cooler climates, mass inside the insulation stores and releases heat to stabilize indoor comfort.

(BRANZ SR116 – Energy efficiency of buildings with heavy walls)

Need Project Support?

CONNECT WITH A BLOCK DESIGN PROFESSIONAL TODAY!

Complete our simple design assistance form or connect directly with the technical director in your area.


Thermal Performance

COMES STANDARD

CMU’s thermal mass stabilizes indoor temperatures, reduces peak energy loads and improves comfort. 
This directly reduces operational energy, the largest driver of a building’s total carbon footprint.
Lower costs for heating/cooling homes
and businesses
Higher levels of comfort for occupants
Less energy use and more sustainable communities
Increased passive survivability in power outages
Operational energy typically represents 70%–80% of a building’s life cycle carbon (IEA, ASHRAE). In commercial buildings, heating and cooling together represent the largest share of operational energy use, averaging 48% of total consumption (ScienceDirect, 2025). In residential settings, heating and cooling typically account for an even greater share of total energy use. Envelope strategies that moderate temperature swings deliver the greatest long-term cost and carbon benefit.

A Staple
of Passive
Solar Design

A Staple of Passive Solar Design

CMU’s thermal mass supports passive solar design. The 2030 Palette, created by Architecture 2030, is a global resource for exploring sustainable design strategies and includes guidance on using mass walls to absorb daytime solar heat and release it indoors after sunset.

CMU structures naturally store heat during the day and release it when temperatures drop, providing a simple, integrated way to moderate indoor comfort.

Thermal Performance 
Is More Than R-Value

Thermal performance reflects whole-assembly behavior, not insulation alone. CMU walls leverage thermal mass to store and release heat, reducing indoor temperature swings. This characteristic reduces the insulation needed for mass walls to meet equivalent code performance.
Consider This:
Diminishing Returns of Higher R-Values:

Increasing R-value above R-12 yields minimal added benefit and adds unnecessary costs and embodied carbon. For example, according to a study from CMHA, doubling R-value from 7 to 14 cuts energy use by only ~2.5% (ft²-°F-hr/BTU).

Source: Thermal Catalog of Concrete Masonry Wall Assemblies, 2nd Edition, CMHA
Minimize thermal bridging

Using reduced-web units, cavity insulation or using thermally broken anchors can minimize these effects.

Multiple Paths to Compliance — CONTInUOUS INSULATION (CI) IS ONLY REQUIRED FOR ONE OF THEM

The energy code recognizes three compliance paths: Prescriptive, Total Trade-Offs and Whole Building Analysis. Each demonstrates building efficiency through a different method of evaluation.

  • Prescriptive – Using tables to meet insulation R-values or U-factors.

    1. CI is only required for the R-Value table. While this is the simplest pathway, it’s also the most restrictive.
    
2. Both the IECC and ASHRAE recognize the role of thermal mass and allow mass walls to use less insulation.
    Look for the mass wall option in both prescriptive tables.
  • Total Trade-Offs – Individual elements can be adjusted, and compliance can be demonstrated using COMcheck™.
  • Whole Building Analysis – Simulated whole building performance, providing the most design flexibility.
FLEXIBLE INSULATION STRATEGIES
CMU supports multiple insulation approaches, enabling designers to tune assemblies to targeted performance objectives and cost budgets without sacrificing the benefits of thermal mass.
1.
Single-wythe: Integral insulation
Internal insulation can be foamed in-place or blocks may include insulation inserts.
2.
Single-wythe: Applied insulation
  • Rigid insulation or batt insulation 
with furring
  • Interior or exterior

Coupling the thermal mass with the interior conditioned space maximizes concrete masonry’s thermal performance.

3.
Cavity insulation

Customizable to any climate zone 
and application.

Visit our free Block Design Collective for fast, reliable CMU guidance, including assemblies, detailing and code compliance support for energy-efficient design.

RESOURCES

Explore the resources below for more insights on how to incorporate concrete masonry to enhance the resilience of your designs.

LEARN

Build your CMU IQ with FREE online courses.

WHY BLOCK?

Discover how block delivers 
it all – strength, style, sustainability and more.

DESIGN

FREE resources — project support, design guides, calculators and more.

Facebook
LinkedIn
Facebook
LinkedIn
Facebook
LinkedIn
Facebook
LinkedIn

We value your privacy

We use cookies on our website to give you the most relevant experience by remembering your preferences and repeat visits. By clicking “Accept”, you consent to the use of ALL the cookies. However you may visit Cookie Settings to provide a controlled consent.