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LIVE: 91.3 FM Cal Poly Student Radio

July 10, 2025
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“Radio is the perfect medium for communication.
It is instantaneous, and unlike television,
it allows you to use your imagination.”
-Guglielmo Marconi

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Radio

Patent No. 558,393 : Flaked cereals and process of preparing same

July 10, 2025
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Community Hub Schools

July 10, 2025
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Donegan Acoustics

The larger part of using the global standardization system to make the real assets of educational settlements safer, simpler, lower-cost and longer-lasting is to make every effort to use those spaces and occupancies effectively.  Today we examine a few case studies and explore possibilites mapped in safety and sustainability catalogs of standards developers whose titles become the basis for government regulation.  Use the login credentials at the upper right of our home page at the usual hour.

The topic is necessarily cross-cutting and technologically interdisciplinary so we draw from the syllabi of colloquia we previously covered.

Ædificare & Utilization

Data Points: National Center for Education Statistics

Child Day Care

Kitchen Wiring

Laundry

Case Study: Center Grove Community School Corporation Security

Clery Act

Summer Sport

Related:

Here are 10 current trends in the construction of K-12 education facilities in the United States, based on recent industry insights and developments. These trends reflect a focus on safety, sustainability, technology, and evolving educational needs, drawn from sources like architectural firms, construction reports, and educational design analyses.

  1. Enhanced Security Systems
    Schools are prioritizing advanced security measures, such as wearable panic devices for staff, access control systems, secure vestibules, surveillance technology, and remote hallway gate controls. Many districts are proactively upgrading security as standalone projects rather than waiting for renovations, aiming to create safer environments without highly visible fortifications. For example, Solomon-Solis Cohen Elementary in Philadelphia integrates park-like settings with security features to balance safety and community appeal.

  2. Flexible and Adaptable Learning Spaces
    Traditional static classrooms are being replaced with modular, flexible spaces that support diverse teaching styles and learning needs. These include movable partitions, demountable walls, and multi-purpose areas like learning stairs, which serve as seating or presentation spaces. Schools like Warsaw High School use learning stairs as dynamic hubs for collaboration, allowing easy reconfiguration for group work, individual study, or CTE programs.

  3. Sustainability and Net-Zero Energy Design
    Schools are adopting eco-friendly designs, such as energy-efficient HVAC systems, solar panels, and green materials, to achieve net-zero energy goals. The transition to electric vehicle (EV) bus fleets with charging infrastructure is also growing, as seen in districts incrementally upgrading transportation facilities. These designs educate students about sustainability while reducing operational costs.

  4. Improved Indoor Air Quality and HVAC Upgrades
    With 38% of U.S. public schools built before 1970, upgrading HVAC systems is a priority to improve air quality and prevent health issues like mold. The American Society of Civil Engineers noted in 2021 that 41% of districts need HVAC updates in at least half their schools, costing billions. Post-COVID, schools are using federal relief funds to enhance ventilation, as seen in Clark County School District’s UL Verified Ventilation mark.

  5. Career and Technical Education (CTE) and STEAM Facilities
    There’s a resurgence in CTE and STEAM (Science, Technology, Engineering, Arts, Mathematics) spaces, with schools building specialized labs for robotics, welding, automotive, and filmmaking. For instance, Merrillville Community School Corporation added a 57,000-square-foot CTE addition with state-of-the-art labs. These spaces prepare students for skilled trades and tech careers, reflecting a shift away from college-only pathways.

  6. Technology Integration and Wi-Fi Optimization
    Schools are designing comprehensive Wi-Fi coverage using predictive modeling to eliminate dead zones, ensuring access for all users (students, staff, parents). Classrooms are equipped with IT infrastructure for digital learning, including VR/AR tools and BIM (Building Information Modeling) for design precision. Santa Ana High School’s transformation of a library into a digital media lab exemplifies this trend.

  7. Health and Wellness-Focused Design
    Designs prioritize mental and physical well-being with natural lighting, ergonomic furniture, and outdoor learning spaces like gardens or courtyards. The “One Health” movement, cited by PBK Architects, emphasizes environments where students and buildings are holistically healthy. Twin Buttes High School in North Dakota incorporates food sovereignty programs with greenhouses and culinary labs to promote wellness.

  8. Community-Centric Facilities
    Schools are being designed as community hubs, hosting events and serving as emergency shelters or voting places. Flexible designs allow spaces to be used by the community year-round, generating revenue. For example, Eddy & Debbie Peach Elementary School includes outdoor art and science labs that double as community spaces, fostering engagement and connection.

  9. Resilient and Durable Construction
    New builds and renovations use resilient materials to withstand high-traffic use and extreme weather, adhering to updated building codes for fire resistance and accessibility. Designers assess existing structures for “good bones” to repurpose them cost-effectively, as seen in HED’s redesign of Santa Monica High School with adaptable, demountable walls.

  10. Collaborative Design with Stakeholder Input
    Construction projects increasingly involve teachers, parents, and students in the planning process through public meetings and surveys to align facilities with community needs. Transparent communication, as emphasized by Bryan Construction, ensures designs reflect educational goals, such as sustainable curricula or flexible spaces, enhancing teacher and student satisfaction.

10 Tampa Bay

July 10, 2025
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Lakeland Florida high school offers free clothes and laundry facilities. Expansion of this concept to Saturdays for all students in the district would contribute to greater utilization of square footage that is normally unused. It may also lower energy cost and contribute to “family feeling” in the district.

Standards Florida

Schools install laundry facilities to help students in need, improve attendance

Case Study: Center Grove Community School Corporation Security

July 10, 2025
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Standards Indiana § Greenwood

“Center Grove Schools enters the 2022/2023 school year with a new high-tech safety partner — Centegix CrisisAlert — purchased in part with school safety grant money that pairs with their Emergency Operations Center that opened in January 2022.  The CrisisAlert program  puts security at the fingertips of all teachers and staff.

Both systems address what the district learned it had to work on from a school safety assessment back in 2018 – live monitoring and faster response times in an emergency.   Seven-hundred cameras will scan every school in real-time from the district’s Emergency Operations Center. — More”

Center Grove school security at the push of a button

Security 100

Center Grove Community School Corporation

“A Sunny Day in Springville (Lawrence County, Indiana)” | n.d. Will Vawter

 

K-12 School Security

Qualified Zone Academy Bonds

July 10, 2025
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Image Credit: Envato

From the Wikipedia:

Qualified Zone Academy Bonds (QZABs) are a U.S. government debt instrument created by Section 226 of the Taxpayer Relief Act of 1997. It was later revised and regulations may be found in Section 54(E) of the U.S. Code. QZABs allow certain qualified schools to borrow at nominal interest rates (as low as zero percent) for costs incurred in connection with the establishment of special programs in partnership with the private sector…

…Funds can be used for renovation and rehabilitation projects (including energy projects), as well as equipment purchases (including computers). QZABs cannot be used for new building construction. The school district must obtain matching funds from a private-sector/non-profit partner equal to at least 10% of the cost of the proposed project. Information on the two QZAB federal mandates, 10% match and academy, can be obtained by visiting the American Association of School Administrators (AASA) school financing toolkit (see resources below).

…The normal annual allocation each year has been $400,000,000. However, during 2008, 2009, and 2010, the American Recovery & Reinvestment Act (ARRA) increased these amounts to 1.4 billion. The 2011 allocation has returned to the $400,000,000 level. The allocation is divided up by all fifty states and US possessions. QZABs are a temporary program, subject to reauthorization. The last authorization was for the calendar years 2012 and 2013. Authorizations must be used within two years following the year for which they were given, meaning that authorizations given in 2012 must be used by December 31, 2014. As of July 21, 2014, the reauthorization of the QZAB program for years 2014 and 2015 has not been passed by the U.S. Congress.  [Emphasis added*]

From the US Department of Education:

…Schools usually fund large projects, like building renovation or construction, through debt mechanisms such as tax-exempt bonds or loans. School districts must then pay a substantial amount of interest on this debt. For schools serving low income students, QZABs reduce the burden of interest payments by giving financial institutions holding the bonds (or other debt mechanism) a tax credit in lieu of interest. The school district must still pay back the amount of money it initially borrowed, but does not have to pay any interest — typically about half the cost of renovating a school. The credit rate for QZABs sold on a given day is set by the Treasury Department…

With the COVID-19 pandemic disrupting education facility construction projects — and the prospect of at least 10 percent of the built environment rendered redundant for all time — it is enlightening to review the several sources of financing for these construction projects.

We review education industry construction project status and financing at least twice a month during our US Census Bureau Monthly Construction and Finance teleconferences.   See our CALENDAR for the next online meeting; open to everyone.  Use the login credential at the upper right of our home page.

 

* The Rebuild America’s Schools Act of 2019 (H.R. 865/S. 266)

H.R. 865 Rebuild America’s Schools Act of 2019

LEARN MORE:

National Education Foundation 

 

Rain & Lightning

July 9, 2025
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The thunderbolt steers all things.
—Heraclitus, c. 500 BC

After the rain. Personal photograph taken by Mike Anthony biking with his niece in Wirdum, The Netherlands

Today at 15:00 UTC we examine the technical literature about rainwater management in schools, colleges and universities — underfoot and on the roof.  Lightning protection standards will also be reviewed; given the exposure of outdoor athletic activity and exterior luminaires.

We draw from previous standardization work in titles involving water, roofing systems and flood management — i.e. a cross-cutting view of the relevant standard developer catalogs.   Among them:

American Society of Civil Engineers

American Society of Plumbing Engineers

ASHRAE International

ASTM International

Construction Specifications Institute (Division 7 Thermal and Moisture Protection)

Environmental Protection Agency | Clean Water Act Section 402

Federal Emergency Management Agency

FM Global

Sustainable Sites Initiative

IAPMO Group (Mechanical and Plumbing codes)

Institute of Electrical and Electronic Engineers

Heat Tracing Standards

International Code Council

Chapter 15 Roof Assemblies and Rooftop Structures

Why, When, What and Where Lightning Protection is Required

National Fire Protection Association

National Electrical Code: Article 250.16 Lightning Protection Systems

Lightning Protection

Underwriters Laboratories: Lightning Protection

Underground Stormwater Detention Vaults

United States Department of Agriculture: Storm Rainfall Depth and Distribution

Risk Assessment of Rooftop-Mounted Solar PV Systems

Readings: The “30-30” Rule for Outdoor Athletic Events Lightning Hazard

As always, our daily colloquia are open to everyone.  Use the login credentials at the upper right of our home page.

“Rainbow Connection”

The “lightning effect” seen in carnival tricks typically relies on a scientific principle known as the Lichtenberg figure or Lichtenberg figure. This phenomenon occurs when a high-voltage electrical discharge passes through an insulating material, such as wood or acrylic, leaving behind branching patterns resembling lightning bolts.

The process involves the creation of a temporary electric field within the material, which polarizes its molecules. As the discharge propagates through the material, it causes localized breakdowns, creating branching paths along the way. These branching patterns are the characteristic Lichtenberg figures.

In the carnival trick, a high-voltage generator is used to create an electrical discharge on a piece of insulating material, such as acrylic. When a person touches the material or a conductive object placed on it, the discharge follows the path of least resistance, leaving behind the branching patterns. This effect is often used for entertainment purposes due to its visually striking appearance, resembling miniature lightning bolts frozen in the material. However, it’s crucial to handle such demonstrations with caution due to the potential hazards associated with high-voltage electricity.

 

Ogród na dachu biblioteki

July 9, 2025
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“It is impossible to communicate to people who have not experienced it–

the undefinable menace of total rationalism.”  Czesław Miłosz

 

 

Polish Committee for Standardization

Polska

Property Loss Prevention

July 9, 2025
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Left Panel Of George Julian Zolnay’s Allegorical “Academic, Business & Manual Education” Granite Frieze At Francis L. Cardozo High School (Washington, DC)

All fifty United States have their own “signature” disaster with which to reckon; some more than others.   California has earthquakes, Florida has hurricanes, Missouri has floods; and so on,  Life and property loss are preventable; but losses will persist because technical solutions notwithstanding, culture determines human behavior.  It is impossible to be alive and safe.

FM Global is one of several organizations that curate privately developed consensus products that set the standard of care for many industries; education communities among them.  These standards contribute to the reduction in the risk of property loss due to fire, weather conditions, and failure of electrical or mechanical equipment.  They incorporate nearly 200 years of property loss experience, research and engineering results, as well as input from consensus standards committees, equipment manufacturers and others.

If you want FMGlobal as your insurance carrier, or to supplement your organization’s self-insurance program, then you will likely be assigned an FMGlobal conformity professional.

A scan of its list data sheets indicate a number of noteworthy updates of documents establishing minimum requirements for safety technologies common in education facilities:

Technical Reports Supporting Code Change

Note that the bulk of the safety concepts in the foregoing titles incorporate by reference the safety concepts that cross our radar every day   FM Global provides direct access to the full span of its documents at this link:

FM GLOBAL PROPERTY LOSS PREVENTION DATA SHEETS

Note FM Global updates its standards every three months:

Standards in Progress

To respond to calls for public consultation you will need to set up (free) access credentials.

We keep FMGlobal titles — and the literature of other property insurers involved in standards setting — on the standing agenda of our Risk, Snow and Prometheus colloquia.  See our CALENDAR for the next meeting.

Issue: [Various]

Category: Risk, Facility Asset Management

More

Deloitte University: Innovation in Insurance

University of Pennsylvania demonstrates the critical importance of sprinklers in dormitories

Syracuse University presents an eclectic mix of risk management challenges

Jackson Laboratory

Representative force majeure clauses.

Example 1: Basic Force Majeure Clause

“Neither party shall be liable for any failure or delay in performance of its obligations under this agreement due to events beyond its reasonable control, including but not limited to acts of God, war, terrorism, civil commotion, labor strikes, and natural disasters. The affected party shall promptly notify the other party of the force majeure event and take reasonable steps to mitigate its impact on performance. During the continuance of such events, the obligations of the affected party shall be suspended, and the time for performance shall be extended.”

Example 2: Detailed Force Majeure Clause

“In the event that either party is unable to perform its obligations under this agreement due to a force majeure event, the affected party shall promptly notify the other party in writing, specifying the nature and anticipated duration of the force majeure event. Force majeure events shall include, but are not limited to, acts of God, strikes, lockouts, government action or inaction, war, terrorism, epidemics, and natural disasters. The affected party shall use reasonable efforts to overcome or mitigate the effects of the force majeure event. If the force majeure event continues for a period of [specified duration], either party may terminate this agreement by providing written notice to the other party.”

 

 

Rainwater Catchment Systems

July 9, 2025
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Duke University West Campus Water Reclamation Pond | Click on image

One of several titles asserting best practice for rainwater catchment systems — an emergent design feature many college and university facility departments are signaling to demonstrate their conformity to the campus sustainability zietgeist — is ASPE 63 Rainwater Catchment Systems; developed and published by the American Society of Plumbing Engineers.  From the project prospectus:

Scope: This standard covers requirements for the design and installation of rainwater catchment systems that utilize the principle of collecting and using precipitation from a rooftop and other hard, impervious building surfaces. This standard does not apply to the collection of rainwater from vehicular parking or other similar surfaces.

Project Need: The purpose of this standard is to assist engineers, designers, plumbers, builders/developers, local government, and end-users in safely implementing a rainwater catchment system.

Stakeholders: Plumbing engineers, designers, plumbers, builders/developers, local government, end users.

You may obtain a copy of the 2020 edition by contacting Gretchen Pienta, (847) 296-0002, gpienta@aspe.org,  6400 Shafer Court, Suite 350, Rosemont, IL 60018.   We encourage front-line/workpoint experts and facility managers to participate in the ASPE standards development process.   Start with the link below:

ASPE Standards Development Home Page

We have all water system codes and standards on the agenda of our next monthly Mechanical, Plumbing and Rain colloquia  See our CALENDAR for the next online meeting; open to everyone.

Issue: [13-61]

Category: Mechanical Engineering, Water

Colleagues: Richard Robben, Larry Spielvogel

University of Toledo

Related: Posted 10 September 2020

Rainwater Catchment Systems 400

 

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