Enscape rendering of bird's eye view of energy-efficient building with solar panels on the roof and the surrounding streets
Kalina Prelikj

Kalina Prelikj

Published: October 09, 2024  •  6 min read

What is Energy Efficiency: Key Concepts and Benefits

 

Energy efficiency—it's a term that gets tossed around in countless project descriptions, sustainability reports, and industry discussions. But what does it actually mean?

Simply put, energy efficiency is about using less energy to achieve the same or better outcomes. It's a key concept that helps us reduce waste, lower energy costs, and minimize our environmental footprint, all while maintaining the necessary level of performance.

With that in mind, understanding energy efficiency is essential for any architect looking to make informed, sustainable choices.

Energy efficiency in the AEC Industry

In the AEC industry, energy efficiency involves designing and constructing sustainable buildings that use less resources for heating, cooling, lighting, and operations without compromising comfort or functionality.

For example, using smart HVAC systems and efficient insulation can significantly cut energy use in a building.

Energy efficiency vs energy conservation

Energy efficiency is often mistaken for energy conservation, but they are distinct concepts. Energy efficiency focuses on using technology or design to achieve the same results with less energy—for instance, installing energy-efficient light bulbs that use less power while providing the same amount of light.

Energy conservation, on the other hand, involves saving energy through behavioral changes, like turning off lights when they’re not needed. While efficiency focuses on maintaining performance with less energy, conservation is about actively reducing energy consumption.

Key concepts for maximum energy efficiency

Enscape rendering of solar panels on the rooftop of a building

To make an informed decision about your next design's level of energy efficiency, you first need to understand some key concepts. With this knowledge, you will be able to identify where improvements can be made to reduce energy consumption and lower greenhouse gas emissions.

  • Energy intensity: This measures how much energy is used to produce a certain amount of economic output, such as GDP. High energy intensity means more energy is required for the same results, leading to inefficiency and higher costs. Understanding this is essential for designing buildings with lower carbon dioxide emissions.
  • Efficiency vs. effectiveness: Effectiveness ensures desired outcomes are met with minimal waste. For example, an efficient building might use advanced insulation to reduce heating costs while maintaining indoor comfort.
  • Types of energy efficiency: Operational efficiency optimizes building systems like HVAC, lighting, and appliances, while structural efficiency designs buildings to use less energy by integrating energy-efficient materials, passive solar design, and renewable energy technologies. Both types are key to industrial decarbonization and cutting carbon dioxide emissions.
  • Technological improvements: Advances in technology, such as LED lighting, smart thermostats, and energy-efficient appliances, are crucial if you want to improve energy efficiency. For instance, according to the DOE, switching to LED lighting in commercial buildings can reduce energy use by up to 75%. Efficient manufacturing facilities also use automation and smart systems to optimize energy use and reduce emissions.
  • Behavioral changes: Small behavioral shifts, like turning off lights or adjusting thermostats, can make a big difference. Setting thermostats back 7-10 degrees for 8 hours a day can save up to 10% annually on heating and cooling costs. Paired with efficient building designs, these practices help reduce energy consumption across economic sectors.
  • Efficient practices: Examples include weatherizing, which improves insulation and seals gaps, and using energy management systems and efficient smart electric meters to track consumption and identify waste. These practices help reduce energy bills and minimize greenhouse gas emissions.
  • Sustainable design: Sustainability focuses on creating buildings that have a minimal environmental impact by using resources responsibly. Energy efficiency is an essential part of sustainability because it reduces the energy needed to operate buildings.

By integrating solutions like passive solar design and energy-efficient windows, architects can lower energy consumption and reduce the building’s carbon footprint. Today, architects can also use tools like Enscape Impact to incorporate energy analysis into their workflows for smoother, more efficient designs.

Energy efficiency benefits

From lowering costs to improving quality of life, energy-efficient practices provide tangible benefits to both individuals and businesses. Below are some of the key benefits of adopting energy efficiency:

  • Economic benefits: Energy efficiency saves money. In fact, effipractices can lead to significant cost savings for both consumers and businesses by reducing energy bills and operational expenses. For example, an energy-efficient office building can lower monthly utility costs, improving profitability for the company.
  • Environmental impact: By reducing energy consumption, energy efficiency directly lowers greenhouse gas emissions and minimizes air pollution. Using energy-efficient appliances in homes reduces the overall carbon footprint, contributing to a healthier environment.
  • Energy security: Energy efficiency decreases reliance on imported fossil fuels by reducing overall energy demand. This enhances national energy security, making countries less vulnerable to energy supply disruptions.
  • Improved health and comfort: Energy-efficient buildings often feature better insulation and ventilation, which enhances indoor air quality and thermal comfort. Well-insulated homes maintain a consistent indoor temperature, improving comfort and reducing the risk of health issues related to poor air quality.
  • Energy equity: Energy efficiency helps make energy more affordable, especially for low-income households, by reducing energy bills and improving access to efficient technologies. Weatherization programs that provide efficient upgrades to low-income homes can significantly lower utility costs for residents.

Energy efficiency in practice

We’ve discussed the concepts of energy efficiency, but how does it work in practice? Here are three green projects that combine design, technology, and natural resources to achieve impressive energy savings.

Design meets behavior

Image of BedZED eco village in London

BedZED eco-village, London

Tom Chance, CC BY 2.0 via Wikimedia Commons

Efficiency is not just about building systems—it’s about how occupants interact with them. The BedZED community in London demonstrates this by combining passive solar heating, high-performance insulation, and energy-efficient appliances with resident-driven behavior changes.

Simple actions, like adjusting thermostats or conserving water, allow BedZED to maximize energy savings through both innovative design and active community participation.

Utilizing nature for efficiency

Image of Bosco Verticale building in Milan

Bosco Verticale, Milan

Darsheni, CC BY-SA 3.0 via Wikimedia Commons

Bosco Verticale in Milan is one notable project that showcases how nature can play a direct role in reducing energy consumption. Its plant-covered façades provide natural insulation, minimizing the need for artificial heating and cooling.

Paired with passive solar design to optimize natural light, Bosco Verticale reduces energy reliance while creating a sustainable, efficient environment for residents.

Scaling efficiency with technology

Image of the Pearl River Tower in Guangzhou

Pearl River Tower, Guangzhou

Von IndexxRus - Eigenes Werk, CC BY-SA 3.0 via Wikimedia Commons

At a larger scale, advanced technology is crucial. A great example is the Pearl River Tower in Guangzhou, which integrates natural ventilation, solar panels, and wind turbines to produce renewable energy and significantly lower energy consumption.

This commercial skyscraper demonstrates how cutting-edge technology can drastically reduce a building's reliance on external energy sources, setting a new standard for energy-efficient high-rises.

Future trends in energy efficiency

Looking ahead, several emerging trends are set to transform how we approach energy efficiency, reshaping both residential and commercial sectors.

Technological advancements

Smart grids, IoT integration, and advanced efficiency-related technologies are revolutionizing how energy is managed in real time. These innovations enable buildings to dynamically respond to changing energy demands, reducing waste and enhancing resilience. As these technologies evolve, buildings will be able to optimize energy usage more effectively, contributing to reduced operational costs and environmental impact across various sectors.

Policy developments

Governments and industries play a crucial to promote energy efficiency through incentives, rebates, and regulatory measures. For instance, Germany’s KfW energy-efficient home loan program provides low-interest loans and grants for homeowners to invest in energy-efficient upgrades.

These policies not only cut emissions but also make energy efficiency more accessible and affordable for consumers and businesses.

Looking forward, efforts to achieve zero emissions will require further collaboration between industries and policymakers, especially to promote industrial efficiency and decarbonization at scale.

Market trends

As awareness of environmental issues grows, so does the demand for energy-efficient products. From appliances to smart lighting and efficient manufacturing systems, these products are becoming standard as consumers and businesses seek to reduce both costs and carbon footprints.

As this market expands, these products will play a crucial role in building a sustainable future, helping drive the shift toward a clean energy economy.

Take the lead in building a sustainable future

It's clear that energy efficiency is a vital component in achieving net zero emissions of carbon dioxide.
With that in mind, it’s our responsibility as architects to prioritize energy efficiency in every project.

By promoting sustainable practices, conducting building performance analysis, adopting the latest technological advancements, and encouraging responsible behaviors, we can reduce energy consumption, support clean energy initiatives, and help combat climate change through resilience and reliability.

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Kalina Prelikj
Kalina Prelikj

A jack of all trades and a Master of Architecture, Kalina enjoys embracing her creative side and has dabbled in everything from marketing to design to communications. Now, as an Editorial Assistant at Architizer, she channels her passion for architecture, helping celebrate the world's best designs and the people behind them.

Enscape rendering of solar panels on the rooftop of a building
Image of BedZED eco village in London

BedZED eco-village, London

Tom Chance,

Image of Bosco Verticale building in Milan

Bosco Verticale, Milan

Darsheni,

Image of the Pearl River Tower in Guangzhou

Pearl River Tower, Guangzhou

Von IndexxRus - Eigenes Werk,