CONTACT A TRANE EXPERT

How Desired Business Outcomes Influence Your Building Technology Solution Needs

Throughout centuries, we have turned to technology to conquer complex challenges and attain desired results. As businesses confront the critical task of reducing their carbon footprint, technology emerges once more as a solution to solve challenges.

Embracing technology to decarbonize operations is critical for business owners, considering that buildings account for nearly 40% of greenhouse gas (GHG) emissions.1 However, just as every business is unique, their journey toward decarbonization is equally individualized. Before you can identify the technology to adopt, you must first determine the business outcome you desire.

Determine Desired Business Outcomes

The process of goal setting can be challenging for organizations as they are frequently juggling the expectations of key stakeholders, managing aging infrastructure, and ensuring compliance with evolving regulations. By asking critical questions, Trane's team of experts can help customers balance competing priorities and arrive at a set of goals. Desired outcomes can vary across building owners; some examples are decarbonization, energy efficiency, increased productivity, serviceability and simply attracting tenants who prioritize sustainability.  The more defined the outcome, the more a building will benefit from the technology implemented.

Often, building owners or facility managers are presented with the newest, most advanced equipment and gadgets. However, it's important to recognize that opting for a simpler, low-tech solution can frequently yield significant results for building owners. Let’s look at some examples of desired outcomes and the technologies best equipped to meet these goals.

 

Desired Outcome #1: Understand Energy Usage & Set Goals

In this instance, an energy audit may be the appropriate first step. An energy audit is an introductory assessment of your energy usage which includes a full review of your building operations, a walkthrough and interviews with company engineers, building managers, and other key stakeholders that can provide vital information about daily processes.  Energy audits can range from understanding a building's current energy use to determining the ROI of equipment changes and upgrades to a comprehensive review of sources of energy and exploring the opportunity to convert to electric energy. Regardless of the level of audit performed, data and insights can be a powerful tool for organizations looking to make decisions about where they can improve their energy usage – you can’t improve what you don’t measure. Read more about the process of an energy efficiency audit.

Desired Outcome #2: Increased Oversight and Smarter Decision Making

A misconception is that new equipment is the only way to increase energy efficiency in a building. But introducing connectivity with legacy equipment, through an Energy Management System (EMS), can yield significant energy savings for building operators. An EMS works as the “brains of the building” – the control center – and connects and facilitates communication between all energy sources in real-time. Through monitoring and visibility into energy usage, building operators can adjust based on intelligent data captured. This allows building owners to not only get more mileage out of legacy equipment but make smarter decisions that will help them meet their goals. Read more about the benefits of an Energy Management System.

Desired Outcome #3: Automation & Predictive Maintenance

This may be an ideal utilization of Artificial Intelligence and Machine Learning (AI/ML). Both get a lot of attention and can be incredibly beneficial to your organization. However, AI and ML are only successful when paired with data and insights resulting from a fully optimized and integrated EMS. There are a range of ways AI/ML can be paired with an EMS to meet a specific objective. AI/ML is great at identifying equipment and sequence problems early. For example, detecting stuck outdoor air dampers before building occupants sense discomfort or the utility bill reveals a disruption. AI/ML can also dynamically adjust optimal setpoints and predict equipment failure. The ability to proactively react to intelligence and insights specific to your building allows you to take immediate and purposeful actions.

Getting Started

As customers think about setting goals, there are a variety of highly effective technologies to help customers succeed. But the order is critical to success:

  1. Identify the right team/expert/collborator.
  2. Collaborate to determine your desired outcome(s).
  3. Assess technology options that will help you achieve that desired outcome.
  4. Measure and validate your solution.

But rest assured, Trane has your back and we are ready to collaborate with you to meet and exceed your unique goals. Call us today to get started.

 1  Source: U.S. Green Building Council

About the Authors

tc-brian-meyers-blog-headshot.jpg

Brian Meyers, System Controls Portfolio Leader - Brian is the System Controls Portfolio Leader for Trane Commercial HVAC Americas, based in White Bear Lake, MN.  Brian’s primary responsibility is the management of current generation Tracer Building Automation Systems.  Brian also serves as a subject matter expert on topics including HVAC applications, system/protocol integration, Internet connectivity & Cyber Security – these topics commonly span across controls products and digital/cloud environments.

tc-charlie-jelen-headshot-blog.jpg

Charlie Jelen, Decarbonization Program Leader - Charlie is the pre-construction lead for Trane’s energy and decarbonization program for key account customers. Through this program, Charlie collaborates with larger enterprises to define their environmental sustainability objectives and establish initiatives and programs to reduce operational emissions through financially attractive and measurable projects. 

Charlie has been involved in the development and support of HVAC systems for Trane since 2012.  His areas of expertise are in hydronic systems, refrigerants, system modeling, and decarbonized system designs including the electrification of heating.  

Charlie lives with his family in La Crosse, WI and graduated from the University of Minnesota with a degree in Mechanical Engineering.