NOAA National Weather Service: Storm Total Maps and Verification
ASCE Codes & Standards Catalog
Engineers Joint Contract Documents Committee
Code and Standards Open for Comment
Public Comment for ASCE/EWRI 78-XX Guidelines for the Physical Security of Water and Wastewater/Stormwater Utilities (Comment Deadline 12/18/2023)
America’s Infrastructure Score: C-
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Annual Financial Reports | Facilities & Planning | UVU Police Department
Core Concepts for Crowd Security
Vigilant crowd monitoring. Continuous oversight to detect and address potential risks in student assemblies.
Layered access controls. Multi-tiered entry points to regulate flow and prevent unauthorized intrusions during events.
Trained security patrols. Dedicated teams circulating through crowds to ensure order and quick response.
Emergency egress protocols. Clear pathways and drills for safe evacuation from congested areas.
Threat assessment teams. Proactive evaluation of crowd dynamics to identify and mitigate hazards.
Visible deterrence measures. Uniformed personnel and signage to promote compliance in high-traffic zones.
Incident response readiness. Coordinated plans for handling disruptions in student gatherings.
Secure perimeter management. Fortified boundaries to contain and protect crowds on campus grounds.
Crowd flow optimization. Strategic routing to avoid bottlenecks in hallways or event spaces.
Community safety culture. Fostering awareness and participation among students for collective security.
Our coverage of relevant standards:
2021 International Wildland-Urban Interface Code
International Code Council: 2024 Group A Proposed Changes
ISO 37101 Sustainable development in communities
“The Architect’s Dream” 1840 Thomas Cole
Today we examine the catalog of several ANSI-accredited, consortia and ad hoc standard developers with titles relevant to the planning, construction and management of the built environment of education communities nested within human settlements characterized by a high population density, extensive infrastructure, and various economic, social, and cultural activities. In other words, from the point of view of a campus as a “city within a city” with attention to infrastructure.
Several organizations and bodies in the United States that develop model codes and standards related to zoning and land use. These model codes and standards are often adopted or referenced by municipalities in their zoning ordinances. Here are some prominent organizations and their model codes:
American Institute of Architects
AIA Handbook of Professional Practice 15th Edition
American Planning Association
American Society of Civil Engineers
Minimum Design Loads and Associated Criteria for Buildings and Other Structures
American Society of Landscape Architects
Sustainable Sites Initiative Rating System
Institute of Electrical and Electronic Engineers
Optimization of Transmission Line Right-of-Way
Diminishing the Right of Way (RoW) With Multi Voltage Multi Terminal Transmission Tower
Information System for the Vegetation Control of Transmission Lines Right-of-way
Partially underground transmission circuits: safety issue for current and future power systems
International Code Council
International Standardization Organization
National Fire Protection Association
National Institute of Standards and Technology
Each of the foregoing titles have some bearing upon decisions about land use. However, keep in mind, that zoning regulations are primarily established at the local level by municipalities, cities, and counties, rather than through national standard bodes. These organizations and their codes provide guidance and best practices for zoning, but specific regulations can vary significantly between different jurisdictions. They are frequently incorporated by reference into regulations by governments at all levels.
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Here are some community colleges in the United States that are embedded within cities, offering students the advantages of an urban setting:
These community colleges not only provide access to higher education but also offer the benefits of being located within major urban centers, including proximity to job markets, cultural institutions, and public transportation.
University of Bath: Department of Estates
*After the Roman period, Bath remained a small town until the 18th century, when it became a fashionable spa destination for the wealthy. The architect John Wood the Elder designed much of the city’s Georgian architecture, including the famous Royal Crescent and the Circus. Bath also played an important role in the English literary scene, as several famous authors, including Jane Austen, lived and wrote in the city. During the 19th century, Bath’s popularity declined as other spa towns became fashionable. In the 20th century, the city experienced significant redevelopment and preservation efforts, including the restoration of its Roman baths and the construction of a new spa complex.
Today, Bath is a UNESCO World Heritage Site and a popular tourist destination known for its historical and cultural significance.
_-_Nationalmuseum_-_edited.jpg)
“Midvinterblot” | Carl Larsson (1853-1919)
The Swedish Standards Institute for Standards is the Global Secretariat for ISO TC/211 which leads standardization in the field of digital geographic information. Standardization titles developed by this committee aims to establish a structured set of standards for information concerning objects or phenomena that are directly or indirectly associated with a location relative to the Earth. These standards may specify, for geographic information, methods, tools and services for data management (including definition and description), acquiring, processing, analyzing, accessing, presenting and transferring such data in digital / electronic form between different users, systems and locations.
The United States Technical Advisory Group Administrator on behalf of ANSI is the InterNational Committee for Information Technology Standards. CLICK HERE for more information.
We maintain all ISO projects on the standing agenda of our Global and ICT colloquia which are open to everyone. You may communicate with Jennifer Garner (jgarner@itic.org) if you wish to participate in standards-setting activity from the United States point of view. Keep in mind that our network of education communities outside the United States is significant and long-standing.
Issue: [16-141]
Category: Global, Information & Communications Technology
Colleagues: Mike Anthony, Jim Harvey, Jack Janveja, Richard Robben
In the United States, land surveying is regulated by various professional organizations and government agencies, and there are several technical standards that must be followed to ensure accuracy and consistency in land surveying.
The best practice for land surveying is set by the “Manual of Surveying Instructions” published by an administrative division of the United States Department of the Interior responsible for managing public lands in the United States. The manual provides detailed guidance on the procedures and techniques for conducting various types of land surveys, including public land surveys, mineral surveys, and cadastral surveys.
George Washington, Surveyor of Western Virginia
Manual of Surveying Instructions
Another important set of model standards for land surveying is the Minimum Standards for Property Boundary Surveys* published by the National Society of Professional Surveyors. These standards provide guidance on the procedures and techniques for conducting property boundary surveys, including the use of appropriate surveying equipment, the preparation of surveying maps and plats, and the documentation of surveying results. Land surveyors in the United States are also required to adhere to state and local laws and regulations governing land surveying, as well as ethical standards established by professional organizations such as the American Society of Civil Engineers.
* Local variants
California: Minimum Standard Detail Requirements for ALTA/NSPS Land Title Surveys
Michigan: Minimum Standard Detail Requirements for ALTA/NSPS Land Title Surveys
The Morrill Land-Grant Act of 1862 granted each state 30,000 acres of federal land for each member of Congress from that state to establish colleges that would teach agriculture, engineering, and military tactics. This legislation led to the establishment of many public universities, including the Texas A&M University, the University of Wisconsin and Michigan State University.
ASCE Standards Catalog | Standards Open for Public Comment
The #InfrastructureReportCard doesn’t just tell us where we stand – it helps us get to where we need to be.
Read 5 key takeaways you should know about ASCE’s 2025 Report Card for America’s Infrastructure: https://t.co/LrnxBB5Jto. pic.twitter.com/rwrESHDLow
— ASCE Headquarters (@ASCETweets) March 27, 2025
Electrical storage system resides at the Massachusetts Institute of Technology’s Vail Access Project
Today at 15:00 UTC we refresh our understanding of stabilized technical standards for electrical energy storage systems (ESS) for industrial and commercial applications. Adhering to these standards ensures ESS reliability, protects personnel, and supports the growing adoption of energy storage in industrial and commercial settings.
Ω NFPA 855 – Standard for the Installation of Stationary Energy Storage Systems: This U.S.-based standard provides comprehensive guidelines for ESS installations, focusing on safety for lithium-ion, flow, and other battery technologies. It covers system siting, fire protection, ventilation, and thermal management. NFPA 855 mandates minimum clearances from buildings and exposures, requires fire detection and suppression systems (e.g., sprinklers or gas-based systems), and specifies exhaust systems to manage off-gassing risks. It also addresses commissioning, maintenance, and decommissioning to prevent hazards like thermal runaway.
Ω NEC (NFPA 70) – National Electrical Code, Article 706: Article 706 of the NEC governs ESS electrical design, emphasizing safe integration with power systems. It requires proper grounding, overcurrent protection, and disconnecting means for battery systems. The standard specifies wiring methods, labeling for hazard awareness, and compatibility with grid interconnection. For commercial and industrial ESS, it mandates compliance with voltage and capacity limits, ensuring systems are designed to handle high-power demands safely. 2026 CMP-16 Public Input Report | 2026 CMP-16 Second Draft Report
Ω UL 9540 – Standard for Energy Storage Systems and Equipment: UL 9540 certifies the safety of ESS, including battery packs, inverters, and control systems. It requires systems to undergo rigorous testing for electrical safety, fire resistance, and thermal runaway prevention. For large-scale commercial installations, UL 9540A, a test method for evaluating thermal runaway fire propagation, is critical to ensure systems can contain or mitigate fire risks. Compliance is often required for local code approvals.
Ω IEEE 1547 – Standard for Interconnecting Distributed Resources with Electric Power Systems: For ESS connected to utility grids, IEEE 1547 specifies requirements for interconnection, including power quality, voltage regulation, and anti-islanding protection. It ensures ESS can safely operate in parallel with the grid, providing ancillary services like frequency regulation or peak shaving without compromising grid stability.
Ω Local Building and Fire Codes: Beyond national and international standards, local jurisdictions — such as college town sustainability initiatives — often enforce additional requirements. Apart from the primary goal of saving energy specific design and construction requirements may apply. These may include specific setback distances, fire-rated enclosures, or emergency response plans tailored to the facility’s size and location. City of Ann Arbor Construction & Building
Compliance with these standards involves collaboration among engineers, installers, and inspectors. Systems must be designed with robust BMS, cooling, and fire mitigation, constructed with high-quality materials, and regularly maintained to meet safety and performance expectations.
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Related, but not covered today:
Utility scale (high voltage) owned and operated by merchant utilities.
Ω IEC 62619 – Secondary Cells and Batteries Containing Alkaline or Other Non-Acid Electrolytes: This international standard focuses on the safety of lithium-ion batteries used in industrial ESS. It outlines requirements for cell and module testing, including electrical, mechanical, and environmental stress tests to prevent failures like short circuits or fires. IEC 62619 also specifies battery management system (BMS) requirements to monitor voltage, temperature, and state-of-charge, ensuring operational stability.
Ω IEC 62485-2 – Safety Requirements for Secondary Batteries and Battery Installations: This standard applies to stationary battery systems, addressing electrical safety, installation practices, and maintenance. It emphasizes protection against electric shock, overcurrent, and short-circuit risks, requiring robust insulation and fault detection systems.
“Mount Fuji from Lake Yamanaka” Takahashi Shōtei (1871-1945) | Los Angeles County Museum of Art
The Japanese Standards Association is the Global Secretariat for a standardization project devoted to the discovery and promulgation of common methods and guidelines for coordinated lifetime management of network assets in power systems to support good asset management. In addition, this may include the development of new methods and guidelines required to keep pace with development of electrotechnologies excluding generation assets; covered by other IEC standards.
There has, and will continue to be significant investment in electricity assets which will require ongoing management to realise value for the organizations. In the last 5 years, there has been USD 718 billion investment for electricity, spending on electricity networks and storage continued, reaching an all-time high of USD 277 billion in 2016. In the United States (17% of the total) and Europe (13%), a growing share is going to the replacement of ageing transmission and distribution assets. A more fully dimensioned backgrounder on the business environment that drives the market for this title is available in the link below:
IEC/TC 123 Strategic Business Plan
Begun in 2018, this is a relatively new project with three stabilized titles:
IEC 60050-693 ED1: Management of network assets in power systems – Terminology
IEC 63223-2 ED1: Management of network assets in power systems – Requirements
IEC TS 63224 ED1: Management of network assets in power systems – Practices and case studies
Electropedia: The World’s Online Electrotechnical Vocabulary
It is early in this project’s lifecycle; far too early to find it referenced in public safety and energy laws in the United States where it would affect #TotalCostofOwnership. Where we should, we follow the lead of the USNC/IEC for the United States, while still mindful that many of our IEEE colleagues follow the lead of their own national standards body.
Because this project fills an obvious gap in good practice literature we maintain this project on our 4 times monthly electrotechnology colloquium that we co-host with the IEEE Education & Healthcare Facilities Committee. See our CALENDAR for the next online meeting; open to everyone.
World Standards Day 2023 webinars on latest information technologies
The importance of functional safety | 2023-10-11 IEC Editorial Team
“When buying and selling are controlled by legislation,
the first things to be bought and sold are legislators.”
— P.J. O’Rourke
“Federal Power Act” | June 10, 1920, Chapter 285 of the 66th Congress]
The Federal Energy Regulatory Commission is an independent agency within the U.S. federal government that regulates interstate transmission of electricity, natural gas, and oil. It oversees wholesale energy markets, pipeline infrastructure, and hydroelectric projects, ensuring fair rates and reliability. While independent, FERC operates under the Department of Energy’s umbrella but does not take direct orders from the executive branch.
FERC enforces energy laws, approves infrastructure projects, and regulates market competition. FERC plays a crucial role in balancing economic, environmental, and energy security concerns, aiming to maintain a stable and efficient energy system across the United States. Since the U.S. shares interconnected electricity grids with Canada and Mexico, FERC’s decisions on transmission rules and pricing affect energy flows and grid reliability in both countries.
Our interest lies in closing a technical gap that exists upstream from the building service point and downstream from the utility supply point. Some, not all of it, can be accomplished with titles in the IEEE catalog.
Given the dominance of vertical incumbents in the electric power domain, we have submitted a tranche of reliability concepts into the ASHRAE, NFPA and ICC catalogs — not so much with the expectation that they will be gratefully received — but that our proposals will unleash competitive energies among developers of voluntary consensus standards.
One of our proposals was heard at the April-May meetings of the International Code Council. We are happy to discuss the outcome of that proposal any day at the usual hour.
Commissioner-Led Reliability Technical Conference Agenda: October 16, 2024, 10:00 AM
Nothing happened in August
Technical Conference RE: Large Loads Co-Located at Generating Facilities: November 1, 10AM EDT
Echo Chamber Synonyms: mutual admiration society, self congratulatory club,
back patting session, congratulatory loop, closed loop of praise, reciprocal praise fest,
feedback bubble, endless validation cycle, compliment carousel.
Transmission Planning Using a Reliability Criterion
In power system engineering, availability and reliability are two important concepts, but they refer to different aspects of the system’s performance.
Reliability:
Reliability focuses on the likelihood of failure and the ability of the system to sustain operations over time, while availability concerns the actual uptime and downtime of the system, reflecting its readiness to deliver power when required. Both concepts are crucial for assessing and improving the performance of power systems, but they address different aspects of system behavior.
November 2023 Highlights | FERC insight | Volume 10
Determining System and Subsystem Availability Requirements: Resource Planning and Evaluation
Comment: These 1-hour sessions tend to be administrative in substance, meeting the minimum requirements of the Sunshine Act. This meeting was no exception. Access to the substance of the docket is linked here.
Noteworthy: Research into the natural gas supply following Winter Storm Elliot.
UPDATED POLICIES ON U.S. DECARBONIZATION AND TECHNOLOGY TRANSITIONS
June 15:FERC Finalizes Plans to Boost Grid Reliability in Extreme Weather Conditions
On Monday June 13th, Federal Energy Regulatory Commission commissioners informed the House Committee on Energy and Commerce that the “environmental justice” agenda prohibits reliable dispatchable electric power needed for national power security. One megawatt of natural gas generation does not equal one megawatt of renewable generation. The minority party on the committee — the oldest standing legislative committee in the House of Representatives (established 1795) — appears indifferent to the reliability consequences of its policy.
Joint Federal-State Task Force on Electric Transmission
“Our nation’s continued energy transition requires the efficient development of new transmission infrastructure. Federal and state regulators must address numerous transmission-related issues, including how to plan and pay for new transmission infrastructure and how to navigate shared federal-state regulatory authority and processes. As a result, the time is ripe for greater federal-state coordination and cooperation.”
Bibliography:
Natural Gas Policy Act of 1978
Glossary of Terms Used in NERC Reliability Standards
The Major Questions Doctrine and Transmission Planning Reform
As utilities spend billions on transmission, support builds for independent monitoring
States press FERC for independent monitors on transmission planning, spending as Southern Co. balks
Related:
At the July 20th meeting of the Federal Energy Regulatory Commission Tristan Kessler explained the technical basis for a Draft Final Rule for Improvements to Generator Interconnection Procedures and Agreements, On August 16th the Commission posted a video reflecting changes in national energy policy since August 14, 2003; the largest blackout in American history.
New update alert! The 2022 update to the Trademark Assignment Dataset is now available online. Find 1.29 million trademark assignments, involving 2.28 million unique trademark properties issued by the USPTO between March 1952 and January 2023: https://t.co/njrDAbSpwB pic.twitter.com/GkAXrHoQ9T
— USPTO (@uspto) July 13, 2023
Standards Michigan Group, LLC
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