By Rick Stehmeyer

Facilities leaders across K–12 school districts and higher education campuses��often��face a familiar challenge: how to best��allocate��maintenance dollars before��a��fiscal year resets.��The pressure of “use it or lose it” budgeting often collides with limited time, staffing constraints, and the need to avoid disruption to students,��faculty��and campus operations.��

Fortunately, not all improvements require long timelines or major construction. In fact, several targeted investments can be executed quickly while delivering immediate and long-term value. When thoughtfully applied, year-end maintenance funds can improve building performance, enhance occupant comfort, strengthen��security��and position institutions for future growth.��

Four areas offer a fast and effective path to maximizing budgets: building automation system updates,��HVAC retro-commissioning and system finetuning, critical alarm management, and cybersecurity enhancements.��

Building Automation System Updates: Modernizing Campuses While Reducing Costs��

For many K–12 schools and college campuses, building automation systems (BAS) are the backbone of daily operations, controlling HVAC,��lighting��and other essential building functions. Yet many systems��remain��outdated, underutilized, or��unsupported��—��which��drive up��maintenance costs and energy use.��

Year-end budgets present an ideal opportunity to complete BAS upgrades��that��may have been deferred. Modern BAS platforms enable smarter, centralized control of multiple building systems, improving efficiency while simplifying operations across entire campuses or districts.��

Energy savings are often the most immediate benefit. Research from Lawrence Berkeley National Laboratory shows that modern BAS upgrades can reduce energy consumption by 10%–30%��through improved scheduling, optimized equipment��performance��and advanced analytics. For education institutions managing tight operating budgets, these reductions can translate into meaningful utility savings that support academic priorities.��

Modern BAS platforms also reduce maintenance burdens. Real-time monitoring and predictive diagnostics help facilities teams��identify��equipment issues before they become failures, minimizing downtime and costly emergency repairs. This is especially valuable for schools and universities��operating��with lean maintenance staff and aging infrastructure.��

Beyond near-term gains, BAS modernization prepares institutions for future initiatives such as electrification, sustainability programs, indoor air quality��monitoring��and smart campus technologies. Updated systems are typically compatible with Internet of Things (IoT) devices and��evolving regulatory requirements, making them a foundational investment rather than a stopgap solution.��

Retro-Commissioning and Finetuning: Aligning Building Performance��with��Academic Needs��

In both K–12 and higher education environments, how spaces are used can change rapidly. Classrooms may be��repurposed,��occupancy patterns shift between semesters, and new health, safety or accessibility standards��emerge.��Retro-commissioning and finetuning help ensure building systems keep pace with those changes.��

Year-end is an ideal time to revisit system performance across HVAC, lighting, electrical, and access control systems. Through targeted testing and review, facilities teams can��identify��inefficiencies, correct control sequences, and ensure systems are��operating��as originally designed—or better.��For��primary��schools, this process directly affects student comfort and learning outcomes. Properly commissioned systems improve temperature consistency, ventilation, and lighting quality, creating healthier and more productive learning environments. For universities, finetuning supports diverse spaces ranging from lecture halls and labs to residence halls and athletic facilities.��

Commissioning also helps institutions address deferred maintenance before it becomes disruptive.��Often findings in one building��are applicable��to the entire campus.��Early identification of failing components or performance gaps allows repairs to be scheduled during academic breaks rather than instructional time. In addition, reviewing dashboards and control interfaces ensures facilities staff have clear, actionable data to support ongoing optimization.��

Ultimately, commissioning��and finetuning protect capital investments, extend equipment life, and reduce operational risk while making better use of existing infrastructure.��

Critical Alarm Management: Reducing Noise While Improving Reliability��

Facilities teams are often inundated with alarms��—��many of which are low priority, redundant or false. In educational settings, alarm fatigue can lead to missed alerts, delayed responses, and unnecessary after-hours��callouts, particularly during holidays and academic breaks.��

Implementing a critical alarm management strategy allows schools and campuses to focus attention where it matters most. By prioritizing alarms that pose��real��operational or safety risks, facilities teams can ensure faster response times and better use of limited personnel.��

Effective alarm management systems route alerts to the��appropriate staff��member, confirm acknowledgment and escalate issues if no response occurs within a defined��timeframe. They also provide historical and real-time data that help��school��facilities leaders��identify��recurring issues, equipment��failures��or operational patterns that require attention.��

For education institutions, the benefits extend beyond efficiency. Improved alarm management supports compliance with safety regulations, protects critical assets such as data centers and laboratories, and reduces system downtime that could disrupt instruction or research.��

Cybersecurity: Protecting Campus Infrastructure��from��Growing Threats��

As school and campus buildings become more connected, cybersecurity has��emerged��as a top concern for facilities leaders. Building management systems, once isolated��due to their��largely non-IP networks, are now��frequently��connected to��academic��networks,����

Recent studies��indicate��that a significant percentage of building management devices��remain��vulnerable due to outdated software, weak authentication��practices��or insufficient network segmentation. For schools and universities, a breach can have��serious consequences, including system outages, data��loss��and safety risks.������

Year-end maintenance funds can be strategically applied to strengthen cybersecurity posture. Key steps include conducting security audits to��identify��vulnerabilities, applying firmware and software updates, implementing multi-factor��authentication��and enforcing role-based access controls.��

One increasingly effective strategy is separating operational technology (OT), such as BAS and other building systems, from traditional IT networks. Moving OT systems to a secure private cloud environment reduces exposure while simplifying management and updates.��

Private cloud environments offer greater control over security policies, encryption protocols, and user access, making them well suited for institutions managing sensitive infrastructure across multiple facilities. Centralized monitoring also allows for faster deployment of security patches and threat detection tools.��

Making the Most of Remaining Maintenance Dollars��

With careful planning, year-end maintenance budgets can do far more than simply��check��a box��before fiscal deadlines. Strategic investments in automation, commissioning, alarm management, and cybersecurity deliver immediate operational improvements while positioning K–12 schools and higher education institutions for long-term success.��

As facilities leaders prepare for the year ahead, the question is no longer whether remaining funds should be spent — but how to spend them wisely.��By focusing��on high-impact, fast-to-deploy improvements, schools and campuses can enhance reliability, efficiency, and safety without disrupting academic missions.��

The end of the year may be approaching quickly, but there is still time to make investments that pay dividends well into the future.��

Rick Stehmeyer is a Solutions Architect with Albireo Energy.

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Deferred maintenance is a challenge plaguing many colleges and universities around the country. As funding tightens, the facilities department is typically among the first required to make do with less funding. This is in part because the facilities department needs are often less visible than the competing needs of faculty salaries and financial aid. However, putting off necessary maintenance today ultimately leads to more severe — and more expensive — problems tomorrow that could impact a facility’s ability to effectively compete.

A maintenance backlog can seem overwhelming when approached as a whole, particularly if the maintenance has been deferred for some time. But when facilities managers categorize their projects, they can create a prioritization system that helps them to balance the various needs, and budgets, of different projects. You can prioritize projects by putting each into one of three categories that indicates the level of damage caused by deferred maintenance. This system also benefits facilities managers who must make an easily digestible case to those financial stakeholders who will make the ultimate decision about whether or not to invest in maintenance projects.

Shifting from New to Existing Facilities

Until recently, many higher-education institutions have focused their attention primarily on adding new facilities to their campuses. These institutions have viewed adding buildings designed to meet the latest expectations as the most visible way to attract leading faculty and the brightest students. However, this investment often comes at the expense of existing buildings. This can be especially problematic when the school leadership doesn’t take into account the long-term maintenance investment that will be necessary to support their new facilities, on top of existing maintenance needs.

There are two types of costs associated with maintenance, both of which must be considered.

• Keep-up costs: Describes the ongoing annual investments necessary to keep buildings performing properly and able to perform during their full useful life.

• Catch-up costs: Describes those charges that come as a result of the accumulation of repair projects that have been deferred as well as any modernization improvements necessary for the facility to perform competitively.

When new construction is prioritized over maintenance for improvements to existing buildings, catch-up costs often grow unwieldy. At some point, however, these costs must be addressed in order to prevent a significant breakdown.

The alternative is to wait until systems suffer a catastrophic failure, at which point the expense and frequency of emergency repair costs will grow far beyond the budget you can plan for today.

Classifying your projects according to these costs will help in your prioritization of capital investments. But there are other factors you can use to prioritize the greatest need for maintenance attention.

3 Criteria for Evaluations

Not all buildings or building needs are equal. And this is a good thing, as presenting financial decision-makers with an overwhelming list of project needs, rather than a clearly prioritized list of items to address over time, is a surefire way to cut short the funding conversation. Consider the following three factors to help evaluate your projects and determine how quickly their needs must be addressed:

1. Condition: The degree of impact the deferred maintenance has had on the overall performance of a facility will of course be the most pressing concern. Some facilities will show immediate need for refurbishment, while others may be able to continue operating for several more years with only moderate upkeep. Others may be ready for tear down to make way for new construction. An assessment should include details about how well the building is performing and list its most immediate and long-term needs.

2. Function:��Those buildings that play the greatest role in helping an institution achieve its overarching mission should take a lead on the list of facilities in need of maintenance. Consider whether or not a proposed project supports the institution’s goals and/or improves its financial performance. If the answer is yes, then this is a high-priority project.

3. Impact of Improvements: Will proposed improvements be visible to staff or students? Will they present savings that in some way reduce spending? Maintenance improvements that are likely to leave a tangible impact should lead on your priority list.

By determining which projects meet one or more of the criteria above, facility managers can begin to put in place a plan that will, over time, demonstrate a clear path to campus improvement.

To read the entire article, check out the July/August issue of .

Jay Pearlman is associate vice president, marketing, at Guilford, Conn.-based Sightlines, an expert on facility planning.

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A new study commissioned by Andover-headquartered Schneider Electric shows that facility managers are looking to leverage the Internet of Things (IoT) by implementing new digital technologies to improve building performance. Eighty-nine percent of respondents said they expect to achieve a return on IoT investments such as intelligent analytics to improve maintenance decisions and operations within three years. Seventy percent of respondents think that IoT will shape their building and maintenance policies in a year’s time — a direct result of the facility manager’s ability to measure success using digital technologies.

“To make the most of building systems, forward thinking facility managers are making a shift toward predictive thinking and taking proactive approaches to maintenance that enhance both operations and energy efficiency,” said Brian Ratcliff, U.S. EcoBuildings services director for Schneider Electric, in a statement. “As the adoption of analytics and IoT becomes more regular, the use of digital technologies for predictive building maintenance will continue to expand, with steadily increasing ROI through the coming years.”

While the study found more than 90 percent of respondents believe connecting systems to the internet ensures smart, productive and profitable operations that provide better value and maximize energy and sustainability, only 15 percent of respondents said they fully use predictive maintenance tools. Similarly, only 35 percent said they have a proactive approach to building system maintenance by conducting regular preventative maintenance on equipment. The other half of facility managers described themselves as reactive.

Regardless, the interest in new technologies and connected services continues to rise with 42 percent of respondents saying they are very interested in using an analytics-managed service to plan effective building maintenance. It seems most are just scratching the service though, with only 32 percent of respondents saying they have analytics solutions in place. And only one third of those who say they fully use predictive maintenance tools have adopted analytics.

The main barrier blocking facility managers from achieving building maintenance goals is the investment (according to 43 percent), while 23 percent of respondents indicated a lack of internal resources available to interpret the data was a key barrier. The study, conducted by Morar Consulting, surveyed 300 U.S. facility directors and managers as well as operations, maintenance and energy personnel in January 2017.

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