In 2009, we met with Senior Facility Managers of four U.S. national laboratories to discuss a major limitation in the way they summarized their capital needs. As with most large organizations, they expressed capital needs in terms of deferred maintenance projects—things that needed to be fixed as determined by condition assessment (inspection or prescribed schedule). To put these needs in perspective, they computed a facility condition index (FCI), which is the ratio of deferred maintenance (D.M) costs to the replacement value of a building or portfolio.
Several years later, following the acquisition of Whitestone Research by CBRE Inc., it quickly became clear that major healthcare organizations around the world oftentimes employ a similar FCI based approach to their capital planning and prioritization decisions.
FACILITY CONDITION INDEX BREAKDOWN
According to a well-known scale developed initially for educational facilities in 1991, a facility is considered in poor condition if its FCI exceeds 90%. The shortcomings of the FCI approach are well-known, as results are not easily compared with alternative condition assessment approaches, and it does not contemplate methodologies for determining replacement values. These choices can become highly political for an organization that uses, as many do, the FCI as a key policy metric.
The basic concern of the laboratory facility managers was that the FCI did not represent the true condition of the facility in terms of safety, security, mission relevance, and other criteria that actually guide their decisions. FCI is also not a forecast or leading indicator that demonstrates consequences of alternative actions. These concerns led to a series of small projects that would eventually define a new approach to summarizing facility condition and prioritizing capital expenditures.
The new method, Risk Scanning, meets three requirements identified in our original meeting. The process must not rely on expensive inspections, must incorporate multiple (customizable) criteria, and the outcomes must be expressed as a simple monetary value.
This approach has universal applicability for laboratories and for large, corporate occupiers. In addition, we have found this approach to be particularly relevant for healthcare organizations today, given the extraordinary economic and regulatory pressures that have become a reality for the industry.
RISK SCANNING
Risk Scanning assumes that buildings or other assets can be reduced to an inventory of components (roof, HVAC equipment, plumbing fixtures, etc.). Each component has a “survivor” curve that relates its age to the likelihood of its failure in the future, little different than an actuarial calculation for an insurance policy. And each component, should it fail, could have consequences for the building operation. Below, Figure 1 illustrates how this data could be used as a simple sort by probability of failure, consequence of failure, or replacement cost.
A more useful view of this data combines knowledge of the probability of failure and the potential consequences as the Risk Facility Managers implicitly consider when scheduling repairs. For example, a new light bulb in a closet would be low risk (low likelihood of failure, low impact on safety, security, mission, etc.), while a roof or electrical panel, far beyond their expected service life would be a high risk. Individual component risk ratings can be aggregated into risk maps by building, consequence type, or aggregated at the portfolio level.
Another example is a risk scan of a data center built in 1980, as shown in Figure 2. Risk is summarized by three consequences or threats of failure – mission, productivity and safety. The “Loss Intensity” is the measure (low, medium, high) of the impact of failure. Each cell in the tables is the sum of the replacement value of each component. For instance, in the first table there are high risk (red) components with replacement values totaling $374,210.
Figure 2: Dashboard showing risk by consequence
One way to represent overall risk is to sum across the individual tables in Figure 2, by risk category (red = high, yellow = moderate, green = low) to produce a single risk column, as shown in Figure 3. This shows that the costs to replace components rated high risk in 2015 for any reason (mission, productivity, or safety) were $2,349,315. Note that some components are high risk for multiple reasons.
The calculation of the column can be modified for different purposes. The ratings from the dashboard could be weighted to reflect management priorities. The likelihood of failure, and consequent migration of risk ratings, could be estimated for a range of years, as shown for the period 2015-2019.
COMPARING THE FCI WITH RISK SCANNING
The data center example provides a useful comparison of the output from a simple condition assessment with the additional data provided by Risk Scanning.
A conventional facility condition assessment using a life cycle cost model indicated that 75 components had exceeded their service life. The costs of replacing these would be $4,771,159. Considering this amount to be deferred maintenance (D.M.), the FCI would be 5% (given $100 million replacement value). This would be summarized as a building in “fair” condition.
A Risk Scan of the component inventory indicates that 13 components are at high risk, and the costs of replacing these would be $2,349,315. This is less than half the costs of replacements by a simple service life-assessment. An FCI based on high risk components would be 2.2%, indicating a building in “good” condition.
In this case, with the additional information provided by Risk Scanning, the facility would be considered in better condition than with the simple condition assessment. Moreover, the risk scan would provide a rating for all components—including those not yet considered as deferred maintenance—as a basis for anticipating future needs and prioritization.
CONCLUSION
The Risk Scanning approach uses well-known risk analytics applied to pre-existing facility data to provide a richer view of facility condition more consistent with actual management decision making. In practice, limited funding is directed to those repairs and replacements that address corporate priorities, such as safety, security, and mission achievement. For healthcare systems, this approach can provide critical insight for decision-making about capital deployment where actionable criteria are not established or where data is limited.
About the Authors
Peter Lufkin is Senior Managing Director and Luca Romani is Senior Analyst with CBRE Whitestone.
Related Stories
Urban Planning | Apr 12, 2023
Watch: Trends in urban design for 2023, with James Corner Field Operations
Isabel Castilla, a Principal Designer with the landscape architecture firm James Corner Field Operations, discusses recent changes in clients' priorities about urban design, with a focus on her firm's recent projects.
3D Printing | Apr 11, 2023
University of Michigan’s DART Laboratory unveils Shell Wall—a concrete wall that’s lightweight and freeform 3D printed
The University of Michigan’s DART Laboratory has unveiled a new product called Shell Wall—which the organization describes as the first lightweight, freeform 3D printed and structurally reinforced concrete wall. The innovative product leverages DART Laboratory’s research and development on the use of 3D-printing technology to build structures that require less concrete.
Market Data | Apr 11, 2023
Construction crane count reaches all-time high in Q1 2023
Toronto, Seattle, Los Angeles, and Denver top the list of U.S/Canadian cities with the greatest number of fixed cranes on construction sites, according to Rider Levett Bucknall's RLB Crane Index for North America for Q1 2023.
University Buildings | Apr 11, 2023
Supersizing higher education: Tracking the rise of mega buildings on university campuses
Mega buildings on higher education campuses aren’t unusual. But what has been different lately is the sheer number of supersized projects that have been in the works over the last 12–15 months.
Architects | Apr 10, 2023
Bill Hellmuth, FAIA, Chairman and CEO of HOK, dies at 69
William (Bill) Hellmuth, FAIA, the Chairman and CEO of HOK, passed away on April 6, 2023, after a long illness. Hellmuth designed dozens of award-winning buildings across the globe, including the Abu Dhabi National Oil Company Headquarters and the U.S. Embassy in Nairobi.
Contractors | Apr 10, 2023
What makes prefabrication work? Factors every construction project should consider
There are many factors requiring careful consideration when determining whether a project is a good fit for prefabrication. JE Dunn’s Brian Burkett breaks down the most important considerations.
Mixed-Use | Apr 7, 2023
New Nashville mixed-use high-rise features curved, stepped massing and wellness focus
Construction recently started on 5 City Blvd, a new 15-story office and mixed-use building in Nashville, Tenn. Located on a uniquely shaped site, the 730,000-sf structure features curved, stepped massing and amenities with a focus on wellness.
Smart Buildings | Apr 7, 2023
Carnegie Mellon University's research on advanced building sensors provokes heated controversy
A research project to test next-generation building sensors at Carnegie Mellon University provoked intense debate over the privacy implications of widespread deployment of the devices in a new 90,000-sf building. The light-switch-size devices, capable of measuring 12 types of data including motion and sound, were mounted in more than 300 locations throughout the building.
Affordable Housing | Apr 7, 2023
Florida’s affordable housing law expected to fuel multifamily residential projects
Florida Gov. Ron DeSantis recently signed into law affordable housing legislation that includes $711 million for housing programs and tax breaks for developers. The new law will supersede local governments’ zoning, density, and height requirements.
Energy Efficiency | Apr 7, 2023
Department of Energy makes $1 billion available for states, local governments to upgrade building codes
The U.S. Department of Energy is offering funding to help state and local governments upgrade their building codes to boost energy efficiency. The funding will support improved building codes that reduce carbon emissions and improve energy efficiency, according to DOE.