With increasing demand to reduce the cost of operation, healthcare leadership is challenging their facility engineers to increase efficiency of the buildings they manage. Healthcare owners are struggling with the need to improve the bottom line with limited capital to spend on projects even with the best rate of return. The return on investment is typically much more attractive and more visible when related to the addition of clinical services as opposed to an investment in infrastructure.
However, studies have shown that when looking at the total lifecycle cost for a healthcare facility, 87 percent of the total cost is spent once healthcare owners start operating the new facility, with almost half of that cost allocated to utilities. The right approach during the planning, design and construction of a new facility can yield a positive return on investment and lower the overall cost basis for ongoing operations.
Form Follows Function
As with any new endeavor, the challenge is to have the right strategy, process and tools and then utilize the latest technology and systems to achieve maximum efficiencies. To have effective facility management, healthcare owners must invest the time to determine how to best manage and operate their facilities. With little to no additional premium in construction, systems can be incorporated into the design of a new facility project that will meet the technical capabilities of existing staff. If additional capabilities are required to meet the new systems goals, identification should be made early to allow for proper training and implementation. Additionally, a clear understanding of the volume of operations that will be outsourced will have an impact on the type of systems that will be built. In architecture, the phrase form follows function is often used. This is highly applicable to systems development as well.
Vital to success is the creation of an infrastructure plan concept. Healthcare leadership can implement this critical step in conjunction with a facility master plan. Development of the plan should begin with a review of the following:
1. Hospital leadership’s vision as it relates to focus on “non-core” services
2. Existing staff capabilities and their readiness to maintain complex systems
3. Number of full-time employees and level of staffing
4. Cost of purchasing utilities
5. Level of outsourcing as it relates to preventive maintenance and service contracts
6. Availability of skilled workforce in the market
7. Hospital’s financial strength to absorb the skilled workforce
8. Structure - single entity or part of a larger system
9. Level of sharing workforce within the hospital system
10. Centralization options within the system
11. Standardization within the hospital system (inventory and purchasing strength)
12. Method of acquiring and purchasing service contracts
13. Number and location of off-site facilities — owned verses leased
14. Energy baseline for the existing facilities
15. Level of modernization and implementation of the right technology
Reviewing, evaluating and developing strategies to close the gaps in the data discussed above forms the basis of an infrastructure plan concept.
As more hospitals are becoming part of larger systems, opportunities exist to capitalize on the economies of scale. Healthcare leaders are experiencing increased responsibility for managing multiple locations, many of which are off-site. Centralizing operations, negotiating and bundling service contracts for the entire system, implementing the right technology to network all facilities, eliminating duplications with staffing and “right staffing” are all areas in which savings can be realized.
To reduce the utility costs, many are negotiating new purchasing agreements utilizing large purchasing groups. However, the demand side of business requires additional investments to also reduce the cost of consumption. With limited resources and capital available, creative measures that require minimal investment need to be implemented to reduce the demand.
Streamlining Operations
● Utilize the latest in technology to reduce the energy cost and improve staffing efficiencies by standardizations, centralizations and sharing resources. Examples of these initiatives include ensuring all systems are commissioned during any new installation and identifying the utility baseline and Energy Star rating and comparing to industry standards.
● Conduct retro-commissioning of the existing systems at locations where there are opportunities to reduce cost. Identify any deficiencies and shortcomings. Opportunities to reduce cost may be as important as reducing liabilities by ensuring systems are operating optimally, per code and can provide patient comfort and safety.
● Ensure that existing service contractors and staff make necessary corrections to systems. Typically most are processed through the existing maintenance work order system. Experience has shown that the majority of such corrections require minimum investments.
● Provide continuous commissioning via a remote monitoring program to identify “bad habits” and modify the way the systems are maintained and operated in order to reduce costs.
● Make adjustments and correct bad habits to optimize performance and reduce energy consumption. These adjustments typically require limited expenditure.
● Utilize technology to share information between facilities and improve staff efficiencies. Examples are dispatching more trained staff from a central location or reduce the staffing on remote locations by reporting alarms to a central location.
It should be noted that the latter steps cannot be implemented unless more advanced energy management and remote monitoring capabilities are in place. The implementation of such technologies will be cost prohibitive unless implemented while a major capital project takes place. This re-emphasizes the importance of planning and having the right process in place during project launch and delivery.
Conclusion
Ultimately, the direction taken to create a more efficient building and systems must be strategic. If an organization is planning a capital expansion there will be more tools and options with which to work. However, if there is no immediate capital plan to be the catalyst for this effort, then retrofit tactics could be employed. By following a structured plan through the capital delivery process a more efficient building can be achieved. The simplistic formula begins with the right concept that is an extension of the strategic vision.
Related Stories
Healthcare Facilities | Jun 5, 2023
Modernizing mental health care in emergency departments: Improving patient outcomes
In today’s mental health crisis, there is a widespread shortage of beds to handle certain populations. Patients may languish in the ED for hours or days before they can be linked to an appropriate inpatient program.
Healthcare Facilities | Jun 1, 2023
High-rise cancer center delivers new model for oncology care
Atlanta’s 17-story Winship Cancer Institute at Emory Midtown features two-story communities that organize cancer care into one-stop destinations. Designed by Skidmore, Owings & Merrill (SOM) and May Architecture, the facility includes comprehensive oncology facilities—including inpatient beds, surgical capacity, infusion treatment, outpatient clinics, diagnostic imaging, linear accelerators, and areas for wellness, rehabilitation, and clinical research.
Healthcare Facilities | May 19, 2023
A new behavioral health facility in California targets net zero energy
Shortly before Mental Health Awareness Month in May, development and construction firm Skanska announced the topping out of California’s first behavioral health facility—and the largest in the nation—to target net zero energy. Located in Redwood City, San Mateo County, Calif., the 77,610-sf Cordilleras Health System Replacement Project is slated for completion in late 2024.
3D Printing | May 12, 2023
World’s first 3D-printed medical center completed
3D construction printing reached new heights this week as the world’s first 3D-printed medical center was completed in Thailand.
Sustainability | May 11, 2023
Let's build toward a circular economy
Eric Corey Freed, Director of Sustainability, CannonDesign, discusses the values of well-designed, regenerative buildings.
Digital Twin | May 8, 2023
What AEC professionals should know about digital twins
A growing number of AEC firms and building owners are finding value in implementing digital twins to unify design, construction, and operational data.
Design Innovation Report | Apr 27, 2023
BD+C's 2023 Design Innovation Report
Building Design+Construction’s Design Innovation Report presents projects, spaces, and initiatives—and the AEC professionals behind them—that push the boundaries of building design. This year, we feature four novel projects and one building science innovation.
Sustainability | Apr 20, 2023
13 trends, technologies, and strategies to expect in 2023
Biophilic design, microgrids, and decarbonization—these are three of the trends, technologies, and strategies IMEG’s market and service leaders believe are poised to have a growing impact on the built environment.
Design Innovation Report | Apr 19, 2023
HDR uses artificial intelligence tools to help design a vital health clinic in India
Architects from HDR worked pro bono with iKure, a technology-centric healthcare provider, to build a healthcare clinic in rural India.
Healthcare Facilities | Apr 17, 2023
UC Irvine takes sustainability to new level with all-electric medical center
The University of California at Irvine (UCI) has a track record for sustainability. Its under-construction UCI Medical Center is designed, positioned, and built to preserve the nearby San Joaquin Marsh Reserve, to reduce the facility’s solar gain by 85%, and to be the first medical center in the country to operate on an all-electric central plant.
