When it comes to running a building efficiently, there's no one-size-fits-all approach. Buildings are unique in location, design, function, and operational systems. Optimizing these factors is critical in reducing operational costs and limiting environmental impact — a growing consideration for consumers, employees, and regulators.
That's where energy audits and engineering assessments come in. These tools are essential for improving building performance and sustainability. By understanding the distinct roles these processes play, building owners and managers can make informed decisions that benefit both their bottom line and capitalize on the added benefits of sustainability.
An energy audit evaluates a building's energy use to identify low-efficiency systems and establish areas for improvement. They're great for building owners because they provide real, actionable data for near-term, cost-efficient changes and long-term capital improvement projects. The process involves several discrete steps:
1. Data Collection: Auditors gather detailed information about the building's current and historical energy consumption, including utility bills, equipment specifications, and operational practices. This is primarily an offsite process gathering the available background information. This information gives the auditor an overview of the building's energy profile.
2. Field Survey: On-site inspections are conducted to gather more system-specific information and assess the real-world application of those systems. For commercial buildings, the most energy-intensive systems are typically HVAC and lighting. The condition of the building envelope is also a priority area during field surveys as it insulates the building, directly impacting HVAC operation.
3. Analysis: The auditors will use the data to identify inefficiencies and energy-saving measures. This includes benchmarking the building against similar facilities with metrics like Energy Utilization Intensity (EUI) to identify industry-specific priority areas to target improvements.
4. Recommendations: Finally, a detailed report outlining historical and current energy use data, with actionable strategies, will be produced. Recommendations typically include a cost-benefit analysis and an expected return on investment, enabling informed decision-making. Building owners can use this data to develop an energy efficiency improvement plan that includes immediate and long-term projects based on available capital.
Unlike the whole-building approach of energy audits, engineering assessments focus on individual building systems or issues, independent of energy use. This targeted approach involves:
1. Problem Identification: Assessors address a single known issue, such as an underperforming HVAC system or outdated lighting fixtures.
2. System Evaluation: Specialized inspections and performance testing are conducted on the system in question to determine its condition, performance, and potential for improvement. This is often done in collaboration with system-specific professionals, such as an HVAC professional, if the HVAC system is the target issue.
3. Targeted Solutions: Recommendations are precise, often including repair, replacement, or optimization of the affected system. For example, upgrading to a heat pump can solve an inefficient HVAC system.
The decision to conduct an energy audit or an engineering assessment depends on the building's needs and the building owner's goals. They serve different purposes, but together, they provide a comprehensive approach to building optimization.
An energy audit is ideal for gaining a holistic understanding of a building's energy performance, identifying broad improvement opportunities, and gathering the data necessary for ongoing building-wide energy efficiency improvement. This is great for older buildings looking to upgrade or new buildings that have previously not tracked their energy use data. It is a core component of any program or certification that requires a business to report on its sustainability. This could be companies with long-term ESG targets or organizations pursuing green building certifications like LEED O+M that require regular recertification.
Furthermore, by identifying inefficiencies and offering actionable recommendations, audits can lead to significant cost savings for building owners. The EPA estimates that energy efficiency improvements can cut operational expenses by 10% and increase the building's value by 3x the capital invested in the upgrades.
On the other hand, engineering assessments are a targeted approach that is ideal for situations where a clear, specific issue needs to be resolved. What they lack in general information, they make up for in specificity.
The detailed information they provide will deliver critical information to make informed decisions when an existing system is operating subpar or a building owner is considering an upgrade. This is particularly useful for capital planning and maintenance prioritization.
In practice, these tools often complement each other. For example, an engineering assessment may uncover issues that prompt a broader energy audit or vice versa.
Beyond the operational savings that energy audits and engineering assessments provide, they are critical for advancing sustainability in the built environment. By identifying inefficiencies and optimizing systems, these processes reduce energy consumption, lower greenhouse gas emissions, and extend equipment lifespans, minimizing waste. For example, Energy Star-certified buildings typically use 35% less energy than standard buildings.
These savings directly contribute to reducing carbon footprints and help meet increasingly stringent regulatory requirements for energy efficiency and reporting. Additionally, energy-efficient buildings enhance resilience against climate change impacts and align with corporate social responsibility goals, strengthening brand reputation while delivering measurable environmental benefits.
Optimizing your building's performance and reducing its environmental footprint requires the right expertise. Energy audits and engineering assessments are essential tools, but their success depends on informed execution.
Emerald Built Environments, A Crete United Company, specializes in guiding organizations toward achieving sustainability goals. From comprehensive energy benchmarking to long-term sustainability roadmaps, our solutions deliver measurable results. We can help you find the right approach to transform your operation and have a strong impact.