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Coconut Cold Brew
2023 Financial Report & Audit | $1.092B
The United States Food and Drug Administration and the National Coffee Association recommended standard temperature for safe hot coffee is around 160°F to 165°F (71°C to 74°C). This temperature range is considered hot enough to be enjoyable while minimizing the risk of scalding or burning.
These agencies do not have specific regulations or guidelines solely dedicated to cold brew coffee. However, there are general principles and best practices for handling and storing perishable food products that can be applied to cold brew coffee to ensure safety.*
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Cold brew coffee typically requires more time to prepare than traditional hot brew coffee. While hot brew coffee can be made in just a few minutes, cold brew coffee is made by steeping coffee grounds in cold water for an extended period of time, usually between 12 to 24 hours. The longer steeping time allows the coffee to extract more slowly and results in a smoother, less acidic coffee concentrate. After steeping, the coffee grounds are usually filtered out and the resulting concentrate can be diluted with water, milk, or other liquids and served over ice. While cold brew coffee does require more time to prepare, many coffee drinkers prefer its smoother, less bitter taste and lower acidity compared to hot brewed coffee. Additionally, the longer shelf life of cold brew coffee concentrate makes it a popular choice for those who like to prepare coffee in advance and have it ready to drink throughout the day. |
The Sacred Myths of Liberalism | Eric Kaufman (University of Buckingham)
Elon University Facilities Management
We cover the technical standards applicable to small to medium sized coffee preparation installations in a cross-cutting way during our Kitchens 200 colloquium.
Relevant IEEE Research:
COVID-19 pandemic affected on coffee beverage decision and consumers’ behavior
Using Digital Marketing to Enhance Sustainability in The Coffee Business
* These recommendations are based on general food safety practices:
Water quality: Start with clean, potable water to brew your cold brew coffee. Make sure the water source is safe and free from contaminants.
Brewing process: Follow good manufacturing practices and ensure that your brewing equipment and utensils are clean and sanitized. Cold brew coffee is typically brewed using room temperature or cold water over an extended period. Ensure that the brewing container is properly sealed and protected from any potential sources of contamination.
Filtration: After the brewing process, filter the cold brew coffee to remove any sediment or particles. This can be done using a fine-mesh sieve or a dedicated filtration system.
Storage: Store the cold brew coffee in a clean, airtight container in the refrigerator. This helps to inhibit the growth of bacteria and maintain the quality of the coffee. Cold brew coffee can typically be stored for a few days to a couple of weeks, depending on the specific recipe and preparation method.
Temperature control: Keep the cold brew coffee refrigerated at a temperature below 41°F (5°C) to prevent the growth of harmful bacteria.
Serve safely: When serving cold brew coffee, use clean and sanitized utensils, containers, and dispensing equipment to avoid cross-contamination. If you add any additional ingredients like milk or sweeteners, ensure that they are stored properly and do not exceed their recommended storage times.
Congratulations to our Lumen Scholars who are going out into the world and making a difference. Learn more about the projects they worked on during their time at Elon and what's next here: https://t.co/iuh9wQ16NB pic.twitter.com/NJ3RiNTVS3
— Elon University (@elonuniversity) June 18, 2025
Rain & Lightning
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
Water Cycle Equation:
Precipitation = Runoff + Infiltration + Evapotranspiration + ΔStoragehttps://t.co/DdIA3UWUxy
Georgia Southern University Civil Engineering & Constructionhttps://t.co/rVhv4tyuBt@GeorgiaSouthern pic.twitter.com/9yo5NZrJQH— Standards Michigan (@StandardsMich) September 10, 2020
IAPMO Group (Mechanical and Plumbing codes)
Institute of Electrical and Electronic Engineers
Heat Tracing Standards
Notice of New Standard Product IEEE 1692-2023
IEEE Guide for the Protection of Communication Installations from Lightning Effectshttps://t.co/y8ZdmtBDRV pic.twitter.com/JG30sFEJlr
— IEEE Standards Association | IEEE SA (@IEEESA) September 2, 2024
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
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”
Enjoying Princeton, with its replica of Magdalen's Great Tower, and its authentically British-style rain pic.twitter.com/FqaQTIUFqc
— Dinah Rose (@DinahGLRoseKC) September 10, 2023
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.
How you know we haven’t had rain for awhile… pic.twitter.com/5zb84HeDUR
— Allison farms (@Allisonfarms) August 5, 2024
Ogród na dachu biblioteki
“It is impossible to communicate to people who have not experienced it–
the undefinable menace of total rationalism.” Czesław Miłosz
Polish Committee for Standardization
Property Loss Prevention
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:
- Safeguards During Construction, Alteration, and Demolition
- Roof Mounted Solar Photovoltaic Panels
- Maximum Foreseeable Loss
- Wind Design
- Repair of Wind-Damaged Single- and Multi-Ply Roof Systems
- Field Verification of Roof Wind Uplift Resistance
- Foam-Water Sprinkler Systems
- Cables and Bus Bars
- Natural Gas and Gas Piping
- Fire Protection for Gas Turbines and Electric Generators
- Fire Protection for Steam Turbines and Electric Generators
- Asset Integrity
- USA and Canada Cost Trends (excl. Puerto Rico)
- Vessels and Piping
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:
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
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.”
Quadrivium: Summer
Trending | Engagements, Weddings & Births | Sport News | Carillons
National Geographic: How did the bluebonnet become a symbol of Texas
University of Michigan Business School | Mike Anthony with colleagues; some since 1982
Asking Oxford Students how they got into Oxford University
Heather McDonald on Why Western Civilization is Worth Defending
New Cultural Forum: “How the Left Destroyed our Universities; and How Leadership Could Care Less”
Net Zero Must Go – Matt Ridley
Lionel Shriver | Mania: How Societies Go Crazy
“Demeter Thesmophoros” Jean-Léon Gérôme
100 years ago, the Supreme Court made it clear in Pierce v. Society of Sisters: raising children is the responsibility of parents, not the government.
100 years later, the Trump Administration remains committed to protecting parental rights. pic.twitter.com/yduXdLShty
— Secretary Linda McMahon (@EDSecMcMahon) June 1, 2025
“…O chestnut tree;, great rooted blossomer,
Are you the leaf, the blossom or the bold?
O body swayed to music, O brightening glance,
How can we know the dancer from the dance?”
— Among Schoolchildren, 1933 William Butler Yeats
We sweep through the world’s three major time zones; updating our understanding of the literature at the technical foundation of education community safety and sustainability in those time zones 24 times per day. We generally eschew “over-coding” web pages to sustain speed, revision cadence and richness of content as peak priority. We do not provide a search facility because of copyrights of publishers and time sensitivity of almost everything we do.
Readings:
“The Advancement of Learning” Francis Bacon (1605)
“The Allegory of the Cave” 380 BCE | Plato’s Republic, Book VII
Thucydides: Pericles’ Funeral Oration
IEEE Access: Advanced Deep Learning Models for 6G: Overview, Opportunities, and Challenges | Xidian University
“Albion: The Origins of the English Imagination” (2002) Peter Ackroyd
“Bitcoin: A Peer-to-Peer Electronic Cash System” Satoshi Nakamoto
“Extraordinary Popular Delusions and the Madness of Crowds” (1841) | Charles Mackay
Cognitive Science: An Introduction to the Study of Mind
“Kant’s Categorical Imperative” | Hillsdale College Introduction to Western Philosophy
“The Natural History of Stupidity” (1959) Paul Tabori
“The College Idea: Andrew Delbanco” Lapham’s Quarterly
Distributed Representations of Words and Phrases and their Compositionality | Google, Inc. et, al
Our daily colloquia are typically doing sessions; with non-USA titles receiving priority until 16:00 UTC and all other titles thereafter. We assume policy objectives are established (Safer-Simpler-Lower-Cost, Longer-Lasting). Because we necessarily get into the weeds, and because much of the content is time-sensitive and copyright protected, we usually schedule a separate time slot to hammer on technical specifics so that our response to consultations are meaningful and contribute to the goals of the standards developing organization and to the goals of stewards of education community real assets — typically the largest real asset owned by any US state and about 50 percent of its annual budget.
1. Leviathan. We track noteworthy legislative proposals in the United States 118th Congress. Not many deal specifically with education community real assets since the relevant legislation is already under administrative control of various Executive Branch Departments such as the Department of Education.
We do not advocate in legislative activity at any level. We respond to public consultations but there it ends.
We track federal legislative action because it provides a stroboscopic view of the moment — the “national conversation”– in communities that are simultaneously a business and a culture. Even though more than 90 percent of such proposals are at the mercy of the party leadership the process does enlighten the strengths and weakness of a governance system run entirely through the counties on the periphery of Washington D.C. It is impossible to solve technical problems in facilities without sensitivity to the zietgeist that has accelerated in education communities everywhere.
Michigan can 100% water and feed itself. Agriculture is its second-largest industry.
2. National Institute of Standards and Technology (NIST)
3. American National Standards Institute (ANSI)
4. Fast Forward
5. Rewind
6. Corrigenda
“The world will never starve for want of wonders;
but only for want of wonder.”
Rainwater Catchment Systems
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
Lightning Protection Systems
2026 Public Input Report | 2026 Public Comment Report
FEMA National Risk Index: Lightning
_-_Benjamin_Franklin_Drawing_Electricity_from_the_Sky_-_Google_Art_Project.jpg)
“Benjamin Franklin Drawing Electricity from the Sky” 1816 Benjamin West
Benjamin Franklin conducted his famous experiment with lightning on June 10, 1752.
He used a kite and a key to demonstrate that lightning was a form of electricity.
This experiment marked an important milestone in understanding the nature of electricity
and laid the foundation for the development of lightning rods and other lightning protection systems.
Seasonal extreme weather patterns in the United States, resulting in damages to education facilities and delays in outdoor athletic events — track meets; lacrosse games, swimming pool closures and the like — inspire a revisit of the relevant standards for the systems that contribute to safety from injury and physical damage to buildings: NFPA 780 Standard for the Installation of Lightning Protection Systems
To paraphrase the NFPA 780 prospectus:
- This document shall cover traditional lightning protection system installation requirements for the following:
(1) Ordinary structures
(2) Miscellaneous structures and special occupancies
(3) Heavy-duty stacks
(4) Structures containing flammable vapors, flammable gases, or liquids with flammable vapors
(5) Structures housing explosive materials
(6) Wind turbines
(7) Watercraft
(8) Airfield lighting circuits
(9) Solar arrays - This document shall address lightning protection of the structure but not the equipment or installation requirements for electric generating, transmission, and distribution systems except as given in Chapter 9 and Chapter 12.
(Electric generating facilities whose primary purpose is to generate electric power are excluded from this standard with regard to generation, transmission, and distribution of power. Most electrical utilities have standards covering the protection of their facilities and equipment. Installations not directly related to those areas and structures housing such installations can be protected against lightning by the provisions of this standard.)
- This document shall not cover lightning protection system installation requirements for early streamer emission systems or charge dissipation systems.
“Down conductors” must be at least #2 AWG copper (0 AWG aluminum) for Class I materials in structures less than 75-ft in height
“Down conductors: must be at least 00 AWG copper (0000 AWG aluminum) for Class II Materials in structures greater than 75-ft in height.
Related grounding and bonding requirements appears in Chapters 2 and Chapter 3 of NFPA 70 National Electrical Code. This standard does not establish evacuation criteria.
University of Michigan | Washtenaw County (Photo by Kai Petainen)
The current edition is dated 2023 and, from the transcripts, you can observe concern about solar power and early emission streamer technologies tracking through the committee decision making. Education communities have significant activity in wide-open spaces; hence our attention to technical specifics.
Public input on the 2026 revision is receivable until 1 June 2023.
We always encourage our colleagues to key in their own ideas into the NFPA public input facility (CLICK HERE). We maintain NFPA 780 on our Power colloquia which collaborates with IEEE four times monthly in European and American time zones. See our CALENDAR for the next online meeting; open to everyone.
Lightning flash density – 12 hourly averages over the year (NASA OTD/LIS) This shows that lightning is much more frequent in summer than in winter, and from noon to midnight compared to midnight to noon.
Issue: [14-105]
Category: Electrical, Telecommunication, Public Safety, Risk Management
Colleagues: Mike Anthony, Jim Harvey, Kane Howard
Didn't really plan for all possibilities, did they. 🤓
NC State's brand-new scoreboard shorts out due to lightning storms https://t.co/KWm78nrRau
— DJ (@DJ87112331) September 10, 2023
The "Top engineering school in the state" just built a $15 million scoreboard without a lightning rod.
Wasn't it just last year that their game got delayed because they couldn't turn the lights on? https://t.co/wWt9gSMYIv
— Steele (@0Gstank) September 9, 2023
More
Installing lightning protection system for your facility in 3 Steps (Surge Protection)
IEEE Education & Healthcare Facility Electrotechnology
Readings: The “30-30” Rule for Outdoor Athletic Events Lightning Hazard
Churches and chapels are more susceptible to lightning damage due to their height and design. Consider:
Height: Taller structures are more likely to be struck by lightning because they are closer to the cloud base where lightning originates.
Location: If a church or chapel is situated in an area with frequent thunderstorms, it will have a higher likelihood of being struck by lightning.
Construction Materials: The materials used in the construction of the building can affect its vulnerability. Metal structures, for instance, can conduct lightning strikes more readily than non-metallic materials.
Proximity to Other Structures: If the church or chapel is located near other taller structures like trees, utility poles, or buildings, it could increase the chances of lightning seeking a path through these objects before reaching the building.
Lightning Protection Systems: Installing lightning rods and other lightning protection systems can help to divert lightning strikes away from the structure, reducing the risk of damage.
Maintenance: Regular maintenance of lightning protection systems is essential to ensure their effectiveness. Neglecting maintenance could result in increased susceptibility to lightning damage.
Historical Significance: Older buildings might lack modern lightning protection systems, making them more vulnerable to lightning strikes.
The risk can be mitigated by proper design, installation of lightning protection systems, and regular maintenance.
Virginia Tech
Current Issues and Recent Research
“If you want to find the secrets of the universe,
think in terms of energy, frequency, and vibration.”
 IEEE Southeastern Michigan Section Welcome August 2024
|
 IEEE & SWE Student Tour of Michigan Stadium Scoreboard | April 2024 |
IEEE Education & Healthcare Facilities Committee June 10 Ω Electrical Power System Research
NFPA Electrical Standards Landing Page Ω NFPA Standards Council Ω NFPA Fire Safety Landing Page
Draft IEEE Paper Abstracts | Mike Anthony Short Biography | Electrical Industrial Conglomerates
“Tomorrow’s Girls” | Donald Fagan
Policy:
Department of Energy Portfolio Analysis & Management System
Department of Energy Building Technologies Office
FERC Open Meetings | (Note that these ~60 minute sessions meet Sunshine Act requirements. Our interest lies one or two levels deeper into the technicals underlying the administrivia)
| Federal Energy Regulatory Commission | Federal Communication Commission | Michigan Public Service Commission |
| June 16 Open Meeting | January 22: Newly Appointed FCC Chairman Announces Staff Changes | June 12 Open Meeting |
| May 15 Open Meeting | May 15 Open Meeting | |
| April 17 Open Meeting | April 24 Open Meeting | |
| March 20 Open Meeting | ||
| February 20 FERC Open Meeting | March 3 Open Meeting | |
| January 16 FERC Press Conference | February 27, 2025 Open Meeting | |
January 23: NARUC Congratulates New FERC, FCC and NRC Chairs
January 22: Newly Appointed FCC Chairman Announces Staff Changes | Related: Falsus in uno, Falsus in omnibus
January 6: City of Ann Arbor Postpones Phase II Study to Municipalize DTE Energy distribution grid
January 27, 10 AM Low-Income Energy Policy Board Meeting: Michigan Public Service commission
Federal Energy Regulatory Commission: January 16, 2025 Open Meeting
Federal Energy Regulatory Commission Notice of Request for Comments (Posted November 25, 2024)
Federal Energy Regulatory Commission | November 21, Open Meeting
Michigan Public Service Commission Meetings
Michigan Public Commission Meeting February 27, 2025
MPSC DTE CMS Electric Power Reliability Case No. U-21305
Michigan Electrical Administrative Board Meeting February 13, 2025
FCC Open Meeting | November 21
Technical: (Also Electrical Power System Research)
Empower Pre-Trained Large Language Models for Building-Level Load Forecasting
Uptime Institute (via NEXT DC) : AI Inference in the Data Center
Majorana Nanowires for Topological Quantum Computing
Linearized Data Center Workload and Cooling Management
Oxford Researchers Discovered How to Use AI To Learn Like A Genius
Lex Fridman: DeepSeek, China, OpenAI, NVIDIA, xAI, TSMC, Stargate, and AI Megaclusters
IEEE: Experts Weigh in on $500B Stargate Project for AI
IEEE: AI Mistakes Are Very Different Than Human Mistakes . We need new security systems designed to deal with their weirdness
High-Performance Tensor Learning Primitives Using GPU Tensor Cores
Department of Electrical Engineering, Columbia University, New York
Department of Electrical Engineering, National Taiwan University of Science and Technology, Taipei City, Taiwan
First Draft Proposals contain most of our proposals — and most new (original) content. We will keep the transcripts linked below but will migrate them to a new page starting 2025:
2026 NEC Standards Michigan proposals | Public Input Report CMP-1
2026 NEC Standards Michigan proposals | Public Input Report CMP-2
2026 NEC Standards Michigan proposals | Public Input Report CMP-4
2026 NEC Standards Michigan proposals | Public Input Report CMP-5
2026 NEC Standards Michigan proposals | Public Input Report CMP-10
2026 NEC Standards Michigan proposals | Public Input Report CMP-11
2026 NEC Standards Michigan proposals | Public Input Report CMP-12
2026 NEC Standards Michigan proposals | Public Input Report CMP-13
2026 NEC Standards Michigan proposals | Public Input Report CMP-15
2026 NEC Standards Michigan proposals | Public Input Report CMP-16
2026 NEC Standards Michigan proposals | Public Input Report CMP-18
Related:
N.B. We are in the process of migrating electric power system research to the Institute of Electrical and Electronics Engineers bibliographic format.
Recap of the May meetings of the Industrial & Commercial Power Systems Conference in Las Vegas. The conference ended the day before the beginning of the 3-day Memorial Day weekend in the United States so we’re pressed for time; given all that happened.
We can use our last meeting’s agenda to refresh the status of the issues.
IEEE E&H Draft Agenda 28 May 2024
On site conference agenda:
IEEE E&H Conference Agenda 21 May 2024
We typically break down our discussion into the topics listed below:
Codes & Standards:
While IAS/I&CPS has directed votes on the NEC; Mike is the only I&CPS member who is actually submitting proposals and responses to codes and standards developers to the more dominant SDO’s — International Code Council, ASHRAE International, UL, ASTM International, IEC & ISO. Mike maintains his offer to train the next generation of “code writers and vote getters”
Performance-based building premises feeder design has been proposed for the better part of ten NEC revision cycles. The objective of these proposals is to reduce material, labor and energy waste owed to the branch and feeder sizing rules that are prescriptive in Articles 210-235. Our work in service and lighting branch circuit design has been largely successful. A great deal of building interior power chain involves feeders — the network upstream from branch circuit panels but down stream from building service panel.
Our history of advocating for developing this approach, inspired by the NFPA 101 Guide to Alternative Approaches to Life Safety, and recounted in recent proposals for installing performance-based electrical feeder design into the International Building Code, appears in the link below:
Access to this draft paper for presentation at any conference that will receive it — NFPA, ICC or IEEE (or even ASHRAE) will be available for review at the link below:
Toward Performance-Based Building Premise Feeder Design
NFPA 110 Definitions of Public Utility v. Merchant Utility
NFPA 72 “Definition of Dormitory Suite” and related proposals
Buildings:
Renovation economics, Smart contracts in electrical construction. UMich leadership in aluminum wiring statements in the NEC should be used to reduce wiring costs.
Copper can’t be mined fast enough to electrify the United States
Daleep asked Mike to do a Case Study session on the NEC lighting power density change (NEC 220-14) for the IAS Annual Meeting in October. Mike agreed.
Exterior Campus & Distribution:
Illumination. Gary Fox reported that IEEE 3001.9 was endorsed as an ANSI accredited standard for illumination systems.
2024-ICPSD24-0012 PERMANENT DESIGN OF POWER SYSTEMS Parise
This paper details primary considerations in estimating the life cycle of a campus medium voltage distribution grid. Some colleges and universities are selling their entire power grid to private companies. Mike has been following these transactions but cannot do it alone.
Variable Architecture Multi-Island Microgrids
District energy:
Generator stator winding failures and implications upon insurance premiums. David Shipp and Sergio Panetta. Mike suggests more coverage of retro-fit and lapsed life cycle technicals for insurance companies setting premiums.
Reliability:
Bob Arno’s leadership in updating the Gold Book.
Mike will expand the sample set in Table 10-35, page 293 from the <75 data points in the 1975 survey to >1000 data points. Bob will set up meeting with Peyton at US Army Corps of Engineers.
Reliability of merchant utility distribution systems remains pretty much a local matter. The 2023 Edition of the NESC shows modest improvement in the vocabulary of reliability concepts. For the 2028 Edition Mike submitted several proposals to at least reference IEEE titles in the distribution reliability domain. It seems odd (at least to Mike) that the NESC committees do not even reference IEEE technical literature such as Bob’s Gold Book which has been active for decades. Mike will continue to propose changes in other standards catalogs — such as ASTM, ASHRAE and ICC — which may be more responsive to best practice assertions. Ultimately, improvements will require state public utility commission regulations — and we support increases in tariffs so that utilities can afford these improvements.
Mike needs help from IEEE Piscataway on standard WordPress theme limitations for the data collection platform.
Mike will update the campus power outage database.
Healthcare:
Giuseppe Parise’s recent work in Italian power grid to its hospitals, given its elevated earthquake risk. Mike’s review of Giuseppe’s paper:
Harvard Business School: Journal of Healthcare Management Standards
Mike and David Shipp will prepare a position paper for the Harvard Healthcare Management Journal on reliability advantages of impedance grounding for the larger systems.
The Internet of Bodies
Forensics:
Giuseppe’s session was noteworthy for illuminating the similarity and differences between the Italian and US legal system in handling electrotechnology issues.
Mike will restock the committee’s library of lawsuits transactions.
Ports:
Giuseppe updates on the energy and security issues of international ports. Mike limits his time in this committee even though the State of Michigan has the most fresh water international ports in the world.
A PROPOSED GUIDE FOR THE ENERGY PLAN AND ELECTRICAL INFRASTRUCTURE OF A PORT
Other:
Proposals to the 2028 National Electrical Safety Code: Accepted Best Practice, exterior switchgear guarding, scope expansion into ICC and ASHRAE catalog,
Apparently both the Dot Standards and the Color Books will continue parallel development. Only the Gold Book is being updated; led by Bob Arno. Mike admitted confusion but reminded everyone that any references to IEEE best practice literature in the NFPA catalog, was installed Mike himself (who would like some backup help)
Papers in Process:
Impedance Grounding Papers 1 and 2 with David Shipp. Previous Discussion:
https://ieeetv.ieee.org/channels/ieee-region-events/uc-berkeley-s-medium-voltage-grounding-system
Over Coffee and Beers:
Mike assured Christel Hunter (General Cable) that his proposals for reducing the 180 VA per-outlet requirements, and the performance-base design allowance for building interior feeders do not violate the results of the Neher-McGrath calculation used for conductor sizing. All insulation and conducting material thermal limits are unaffected.
Other informal discussions centered on the rising cost of copper wiring and the implications for the global electrotechnical transformation involving the build out of quantum computing and autonomous vehicles. Few expressed optimism that government ambitions for the same could be met in any practical way.
Are students avoiding use of Chat GPT for energy conservation reasons? Mike will be breaking out this topic for a dedicated standards inquiry session:
Workspace IEEE 1366: Guide for Electric Power Distribution Reliability Indices
Largest U.S. Electric Utility Companies Ranked by Generation Capacity For IEEE 493 update we seek outage data from the 100 largest campus power system experts.
I-Code Group B Committee Action Results
Complete Monograph (2630 Pages)
Partial listing. We have until July 15th to comment on committee action
Our proposal G153-25: Page 754
Michigan Modular G195-25: Page 859
“Clinical Need” definition for enhanced security: Page 765
“Electric Vehicle Charger” definition by the National Parking Association/Parking Consultant’s Council: Page 457
“EV Charging Space” definition: Page 458
“EV Supply Equipment” definition: Page 460
ADM20-25 Authority of building official in natural disasters and high hazard regions, p141
ASM3-25 Electrical equipment re-use, p195
G2-25. New definition for Animal Housing Facilities, p438
S57-25. Quite a bit of back and forth on wind and PV “farms, p1053, et. al (“Wind and solar farms are different from animal and produce farms” — Mike Anthony)
G143-25 Lighting Section 1204L remote rooms, windowless rooms, University of Texas Austin student accommodation costs, p. 737-
PM31-25 Housekeeping and sanitation in owned property as law, p1794
PM50-25, Sleeping units to be private, p.1829
RB146-25. Energy storage systems installed in garages, requirements for physical protection, p. 2195
RB144-25, Load capacity ratings and compliance with NFPA 855, p. 2186
RB143-25, Working roof walking access around solar panels, p. 2180
SP1-25 New definition of base flood elevation for purpose of correlating requirements for electrical safety, et. al, p. 2578
Link to Track 1 and Track 2 Webcast
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