Author Archives: mike@standardsmichigan.com

Loading
loading...

Meatloaf

Standards Illinois

Meatloaf is traced back to ancient times when people started combining ground meat with other ingredients for a more economical and substantial meal.

Colonial America: The concept of mixing ground meat with breadcrumbs or grains dates back to medieval Europe. When settlers arrived in North America, they adapted these techniques to the ingredients available to them, such as native grains and game meats.

19th Century: As meat grinders became more widely available in the 19th century, the preparation of ground meat dishes became easier. Meatloaf gained popularity during this time, with regional variations emerging across the United States. Families would incorporate various seasonings, herbs, and fillers based on local ingredients and preferences.

World War II and Post-War Era: Meatloaf became even more popular during World War II and the post-war era due to its affordability and versatility. Families could stretch a small amount of meat by combining it with breadcrumbs, rice, or oats, making it an economical choice during times of rationing.

1950s and 1960s: Meatloaf reached its peak of popularity in the mid-20th century, becoming a staple of American home cooking. The dish was often featured in cookbooks and advertisements, showcasing its versatility and ease of preparation.

Over time, meatloaf recipes have evolved with regional and personal preferences. Some variations include using different meats (beef, pork, veal, or a combination), adding vegetables, experimenting with various seasonings, and glazing with sauces.

 

Campus Dining recipe: Meatloaf

Ingredients:

Celery, chopped fine, 1 & 1/2 oz.
Yellow onions, chopped fine, 2 & 3/4 oz.
Ground beef, 2 lbs.
Eggs, 2 whole
Ketchup, 2 & 1/3 Tbsp.
Mustard, 2 3/8 tsp.
Worcestershire sauce, 1 1/8 tsp.
Italian seasoning, 5/8 tsp.
Bread crumbs, plain, 3 & 1/2 oz.
Kosher salt, 3/8 tsp.
Black pepper, 1/4 tsp.
Topping

Ketchup, 1 & 1/2 oz.
Water, 2 3/8 tsp.
Instructions

Preheat oven to 325 degrees.

Place ground beef in mixing bowl. Add eggs and combine.

Add ketchup (2 & 1/3 Tbsp.), mustard, Worcestershire sauce, Italian seasoning, onions, celery, breadcrumbs, salt, and pepper. Mix well to combine. Meatloaf should be firm. If mixture is not, add more bread crumbs.

Place meatloaf in a loaf pan. Make sure it is spread evenly.

Bake for about 45 minutes, uncovered. Remove from oven.

Combine ketchup (1 & 1/2 oz.) and water. Spread over meatloaf.

Return to oven for another 15-20 minutes, or until internal temperature reaches 155 degrees.

Let the meatloaf rest for 30 minutes prior to cutting.

Illinois

Solar (Summer)

Sie strahlt vor Freude über ihre Auszeichnung – TH-Alumna Melanie Klaus. Für ihre Bachelorarbeit im Bereich Erneuerbare Energien wurde sie vom Solarenergieförderverein Bayern geehrt. In ihrer Bachelorarbeit im Studiengang Elektro- und Informationstechnik untersuchte sie das Zusammenspiel von Wind- und Solarenergie und den Nutzen, der sich hieraus für die regenerative Energieerzeugung erzielen lässt. Untersucht wurde also die Nutzung der natürlichen Kombination von Wind und Sonne für die Energieerzeugung. Um die Rentabilität dieser Einspeisekombination zu ermitteln, hat Melanie Klaus ein Software-Tool entwickelt, welches zur Planung und Simulation abgestimmter Photovoltaik-Wind-Kombinationen dient und bereits für die Errichtung einer Photovoltaik-Anlage zu einem Windpark eingesetzt wird.

Starting 2023 we separated our coverage of solar energy standards from our standing Electrical and Energy colloquia and placed emphasis on seasonal life cycle returns.   We start with the following titles

IEC TC 82 Solar photovoltaic energy systems

Underwriters Laboratories 1703 PV Module Certification

ASTM E772 Standard Terminology of Solar Energy Conversion

IEEE 1562 Guide for Array and Battery Sizing in Stand-Alone Photovoltaic Systems

NEMA Solar Photovoltaic Council

NECA 412 Standard for Installing and Maintaining Photovoltaic Power Systems

NFPA 70 Articles 690-691

NFPA 70 Articles 705 & 855

International Code Council Section 1607 Photovoltaic panels or modules

ASHRAE International: 90.1 Building Energy Code & 189.1 Green Energy Code

Time permitting: Example design specification and construction contract.

"Education is simply the soul of a society as it passes from one generation to another" - G.K. Chesterton

Other standards developers and publishers are also present in this domain but this list is where we will start given that we only have an hour.   Join us today at 16:00 with the login credentials at the upper right of our home page.

Readings:

What are the hidden costs of solar panels?

Do We Have Enough Silver, Copper, And Other Materials To Keep Up With The Growth Of Solar?

Mining Raw Materials for Solar Panels: Problems and Solutions

Grid-Connected Microgrid Battery Energy Storage Systems

Solar Panels on King’s College Chapel Roof

“…The solar panels will populate the gothic chapel roof, producing an approximate 105,000 kWh of energy a year – enough to run the chapel’s electricity, and saving around £20,000 in energy bills per year. The college confirmed that any excess energy would be sold off to the national grid.

King’s College Announcement

Solar Panels on King’s College Chapel Roof

Solar panels perform better when listening to music:

A 2013 study by researchers at Imperial College London and Queen Mary University of London showed that solar panels actually work better when exposed to music, of multiple genres. Scientists at the university proved that when exposed to high pitched sounds, like those found in rock and pop music, the solar cells’ power output increased by up to 40 percent. Classical music was also found to increase the solar cells’ energy production, but slightly less so than rock and pop, as it generally plays at a lower pitch than pop and rock. Whether they know it or not, British band Coldplay are just one of the artists benefitting from this research. During their 2021 tour, they installed solar photovoltaic panels in the build-up to each show, “behind the stage, around the stadium and where possible in the outer concourses”…

BS 7671 Requirements for Electrical Installations

The Major Differences in Electrical Standards Between the U.S. and Europe

Representative Calculation: (WAG)

To determine how much electrical power and lighting 12 kilowatts (kW) will provide for an educational facility, we need to consider the following factors:

    1. Power Distribution: How the 12 kW will be distributed across different electrical needs such as lighting, computers, HVAC (heating, ventilation, and air conditioning), and other equipment.
    2. Lighting Requirements: The specific lighting requirements per square foot or room, which can vary based on the type of facility (classrooms, libraries, laboratories, etc.).
    3. Efficiency of Lighting: The type of lighting used (e.g., LED, fluorescent, incandescent) as this affects the power consumption and lighting output.

We start with lighting.

    1. Lighting Efficiency:
      • LED lights are highly efficient, typically around 100 lumens per watt.
      • Fluorescent lights are less efficient, around 60-70 lumens per watt.
    2. Lighting Power Calculation:
      • 12 kW (12,000 watts) of LED lighting at 100 lumens per watt would provide: 12,000 watts×100 lumens/watt=1,200,000 lumens
    3. Illumination Requirements:
      • Classroom: Approximately 300-500 lux (lumens per square meter).
      • Library or laboratory: Approximately 500-750 lux.
    4. Area Coverage:
      • If we target 500 lux (which is 500 lumens per square meter), we can calculate the area covered by the lighting: (1,200,000 lumens)/ 500 lux=2,400 square meters

Now we need to allocate power to other loads.

    1. Lighting: Assuming 50% of the 12 kW goes to lighting:
      • Lighting Power: 6 kW (6,000 watts)
      • Using the previous calculation: 6,000 watts×100 lumens/watt=600,000 lumens
      • Area Coverage for lighting (at 500 lux): (600,000 lumens)/500 lux=1,200 square meters
    2. Other Electrical Needs:
      • Computers and equipment: Typically, a computer lab might use around 100 watts per computer.
      • HVAC: This can vary widely, but let’s assume 4 kW is allocated for HVAC and other systems.

Breakdown:

    • Lighting: 6 kW
    • Computers/Equipment: 2 kW (e.g., 20 computers at 100 watts each)
    • HVAC and other systems: 4 kW

Summary

    • Lighting: 12 kW can provide efficient LED lighting for approximately 1,200 square meters at 500 lux.
    • General Use: When distributed, 12 kW can cover lighting, a computer lab with 20 computers, and basic HVAC needs for a small to medium-sized educational facility.

The exact capacity will vary based on specific facility needs and equipment efficiency.

 

 

Solar Photovoltaic Energy Systems

Technical Committee 82 of the International Electrotechnical Commission is charged with preparing international standards for the full length of the solar energy power chain  The span of the power chain includes the light input, the cell itself, and the fittings and accessories to the end use (utilization) equipment.

Strategic Business Plan of IEC Technical Committee 82

The United States is the Global Secretariat for TC 82 through the US National Committee of the International Electrotechnical Commission (USNA/IEC) administered by the American National Standards Institute(ANSI).  Standards Michigan is a long-standing member of ANSI since our “standards journey” began at the University of Michigan in 1993.

The USNA/IEC and participates in its standards development processes; typically collaborating with global research and application engineers in the IEEE Industrial Applications Society and the IEEE Power and Energy Society.   To advance its agenda for lower #TotalCostofOwnership for US real asset executives and facility managers Standards Michigan also collaborates closely with subject matter experts who contribute to, and draw from, the knowledge base in the IEEE Education and Healthcare Facilities Committee (E&H).

The IEC permits public commenting on its draft standards; though you will need to establish login credentials:

IEC Public Commenting

Your comments will be reviewed by the IEC National Committee of the country you live in, which can decide to propose them as national input for the final draft of the IEC International Standard.  This approach makes it easier for individual nations to participate in IEC standards development processes because the resources that national standards bodies need to administer participation resides in Geneva and is managed there.  

“The Eclipse of the Sun in Venice, July 6, 1842” | Ippolito Caffi

We collaborate with the IEEE Education & Healthcare Facilities Committee which has its own platform to tracking commenting opportunities:

IEEE E&H/USNC/IEC Workspace

As of this posting, no interoperability redlines have been released for public consultation.   In large measure, IEC titles contribute to a level playing field among multi-national electrical equipment manufacturers so we should not be surprised that there are no redlines to review.   When they are released we place them on the agenda of the IEEE E&H Committee which meets 4 times monthly in European and American time zones.

Log in to the E&H Committee meeting

Issue: [18-240]

Category: Electrical Power, Energy Conservation

Contact: Mike Anthony, Jim Harvey, Peter Sutherland


LEARN MORE:

[1] US Commenters must route their comments through the USNA/IEC.

[2] Many product and installation standards are developed by the Association of Electrical Equipment and Medical Imaging Manufacturers (NEMA): CLICK HERE

[3]  NEMA comparison of NEC and IEC electrical safety standards

Dutch Institute for Fundamental Energy Research

 

 

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”

MORE

Lionel Shriver | Mania: How Societies Go Crazy

 

Summer Week 28 | July 8 – July 14

 

Retrodiction

“Demeter Thesmophoros” Jean-Léon Gérôme

“…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.

2National Institute of Standards and Technology (NIST)

3. American National Standards Institute (ANSI)

4. Fast Forward  

The Year Ahead 2025

5. Rewind

Retrodiction

Lights Out

6. Corrigenda

 

“The world will never starve for want of wonders;

but only for want of wonder.”

–  G.K Chesterton, The Spirit of Christmas (1905)

Solarvoltaic PV Systems

“Icarus” Joos de Momper

National Electrical Code Articles 690 and 691 provide electrical installation requirements for Owner solarvoltaic PV systems that fall under local electrical safety regulations.  Access to the 2023 Edition is linked below;

2023 National Electrical Code

2026 National Electrical Code Second Draft Transcript | CMP-4

Insight into the technical problems managed in the 2023 edition can be seen in the developmental transcripts linked below:

Panel 4  Public Input Report (869 pages)

Panel 4  Second Draft Comment Report (199 pages)

The IEEE Joint IAS/PES (Industrial Applications Society & Power and Energy Society) has one vote on this 21-member committee; the only pure “User-Interest” we describe in our ABOUT.  All other voting representatives on this committee represent market incumbents or are proxies for market incumbents; also described in our ABOUT.

The 2026 National Electrical Code has entered its revision cycle.  Public input is due September 7th.

We maintain these articles, and all other articles related to “renewable” energy, on the standing agenda of our Power and Solar colloquia which anyone may join with the login credentials at the upper right of our home page.   We work close coupled with the IEEE Education & Healthcare Facilities Committee which meets 4 times monthly in American and European time zones; also open to everyone.

 

 

 

 

Hegemon Cuyahoga & County Dublin

Financial Presentations & Webcasts

Here we shift our perspective 120 degrees to understand the point of view of the Producer interest in the American national standards system (See ANSI Essential Requirements).  The title of this post draws from the location of US and European headquarters.  We list proposals by a successful electrical manufacturer for discussion during today’s colloquium:

2026 National Electrical Code

CMP-1: short circuit current ratings, connections with copper cladded aluminum conductors, maintenance to be provided by OEM, field markings

CMP-2: reconditioned equipment, receptacles in accessory buildings, GFCI & AFCI protection, outlet placement generally, outlets for outdoor HVAC equipment(1)

(1) Here we would argue that if a pad mount HVAC unit needs service with tools that need AC power once every 5-10 years then the dedicated branch circuit is not needed.  Many campuses have on-site, full-time staff that can service outdoor pad mounted HVAC equipment without needing a nearby outlet.  One crew — two electricians — will run about $2500 per day to do anything on campus.

CMP-3: No proposals

CMP-4: solar voltaic systems (1)

(1) Seems reasonable – spillover outdoor night time lighting effect upon solar panel charging should be identified.

CMP-5: Administrative changes only

CMP-6: No proposals

CMP-7: Distinction between “repair” and “servicing”

CMP-8: Reconditioned equipment

CMP-9: Reconditioned equipment

CMP-10: Short circuit ratings, service disconnect, disconnect for meters, transformer secondary conductor, secondary conductor taps, surge protective devices, disconnecting means generally, spliced and tap conductors, more metering safety, 1200 ampere threshold for arc reduction technology, reconditioned surge equipment shall not be permitted, switchboard short circuit ratings

CMP-11: Lorem

CMP-12: Lorem

CMP-13: Lorem

Lorem ipsum

Current Issues and Recent Research

“If you want to find the secrets of the universe,

think in terms of energy, frequency, and vibration.”

—  Nikola Tesla

​​

IEEE Southeastern Michigan Section Welcome August 2024

 

 

IEEE & SWE Student Tour of Michigan Stadium Scoreboard | April 2024

IEEE SEM Student Activity

Trending

 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

NEW: ASHRAE Landing Page

Draft IEEE Paper AbstractsMike 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)

Interregional Transfer Capability Study: Strengthening Reliability Through the Energy Transformation Docket No. AD25-4-000

Federal Energy Regulatory Commission | November 21, Open Meeting

Press Conference

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 

[Mike Anthony Opinion] on the gales of innuendo against limited federal government voices in federally financed National Public Radio

National Infrastructure Advisory Council: Addressing the Critical Shortage of Power Transformers to Ensure Reliability of the U.S. Grid

H.R. 9603 (September 16): To amend the Federal Power Act to prohibit the Federal Energy Regulatory Commission from issuing permits for the construction or modification of electric transmission facilities in a State over the objection of the State, and for other purposes.

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

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

Causes and Consequences of Widespread Power Blackout Across Taiwan on 3 March 2022: A Blackout Incident Investigation in the Taiwan Power System

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:

Electrical Safety

2026 NEC Standards Michigan proposals | Public Input Report CMP-1

2026 NEC Standards Michigan proposals | Public Input Report CMP-2

Public Input Report CMP-3

2026 NEC Standards Michigan proposals | Public Input Report CMP-4

2026 NEC Standards Michigan proposals | Public Input Report CMP-5

Public Input Report CMP-6

Public Input Report CMP-7

Public Input Report CMP-8

Public Input Report CMP-9

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

Public Input Report CMP-14

2026 NEC Standards Michigan proposals | Public Input Report CMP-15

2026 NEC Standards Michigan proposals | Public Input Report CMP-16

Public Input Report CMP-17

2026 NEC Standards Michigan proposals | Public Input Report CMP-18

Related:

2026 National Electrical Code

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

NESC & NEC Cross-Code Correlation

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)

Universities with Quantum Computing Facilities

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:

GPT Power Grid

Education & Healthcare Facility Electrotechnology Committee

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)

Voting Results

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

Landing Page for Group B 2025

 

Link to Track 1 and Track 2 Webcast

Performance-Based Electrical Power Chain Design

How the Netherlands Prevents Flood Disasters

 

 

Federal Flood Risk Management Standard

Layout mode
Predefined Skins
Custom Colors
Choose your skin color
Patterns Background
Images Background
error: Content is protected !!
Skip to content