Marina & Boatyard Electrical Safety

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Marina & Boatyard Electrical Safety

September 1, 2025
mike@standardsmichigan.com

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Rowing at the 2024 Summer Olympics

“The Biglin Brothers Racing| Thomas Eakins (1872)

Rowing competition in the 2024 Olympics inspires a  revisit of NFPA 303: Fire Protection Standard for Marinas and Boatyards.  Apart from athletic competition, many colleges, universities and trade schools with academic programs are responsible for safety of facilities located on fresh and saltwater shorelines.  Other nations refer to best practice discovered and applied in the United States.   Keep in mind that, unlike other nations, the standard of care for electrical safety in the United States is driven primarily by the fire safety community.   This happens because public safety leadership falls upon the local Fire Marshall who has a budget that is widely understand and generally supported.

From the NFPA 303 scope statement:

 This standard applies to the construction and operation of marinas, boatyards, yacht clubs, boat condominiums, docking facilities associated with residential condominiums, multiple-docking facilities at multiple-family residences, and all associated piers, docks, and floats.

This standard also applies to support facilities and structures used for construction, repair, storage, hauling and launching, or fueling of vessels if fire on a pier would pose an immediate threat to these facilities, or if a fire at a referenced facility would pose an immediate threat to a docking facility.

This standard applies to marinas and facilities servicing small recreational and commercial craft, yachts, and other craft of not more than 300 gross tons.

This standard is not intended to apply to a private, noncommercial docking facility constructed or occupied for the use of the owners or residents of the associated single-family dwelling.

No requirement in this standard is to be construed as reducing applicable building, fire, and electrical codes.

The standard of care for facilities owned by educational institutions is not appreciably different from the standard of care for any other Owner except some consideration should be given to the age and training of most of the occupants — students, of course — who are a generally transient population.  Some research projects undertaken on university-owned facilities are also subject to the local adaptions of NFPA 303.  The current version of NFPA 303 is linked below:

FREE ACCESS: NFPA 303

 

Boathouse Row / Philadelphia

The 2021 Edition is the current edition and the next edition will be the 2025 revision.  Click on the link below to read what new ideas were running through the current edition; mostly electrical that are intended to correlate with National Electrical Code Article 555 and recent electrical safety research*:

Landing Page for the 2028 Edition

NFPA 303 Public Input Report for the 2021 Edition

Public input closing date for the 2025 Edition is June 1, 2023.   

You may submit comment directly to NFPA on this and/or any other NFPA consensus product by CLICKING HERE.  You will need to set up a (free) account.   NFPA 303 document is also on the standing agenda of our 4 times monthly collaboration with the IEEE Education & Healthcare Facilities Committee.  See our CALENDAR for the next online colloquium; open to everyone.

Michigan Technological University

Issue: [16-133]

Category: Electrical, #SmartCampus, Facility Asset Management

Colleagues: Mike Anthony,  Jim Harvey


LEARN MORE:

* Marina Risk Reduction

NFPA 70 National Electrical Code (Article 555)

Examining the Risk of Electric Shock Drowning (ESD) As a Function of Water Conductivity

Communication in the Presence of Noise

September 1, 2025
mike@standardsmichigan.com

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Communication in the Presence of Noise

Claude E. Shannon

University of Michigan – Bell Telephone Laboratories – Massachusetts Institute of Technology

Abstract. A method is developed for representing any communication system geometrically. Messages and the corresponding signals are points in two “function spaces,” and the modulation process is a mapping of one space into the other. Using this representation, a number of results in communication theory are deduced concerning expansion and compression of bandwidth and the threshold effect. Formulas are found for the maximum rate of transmission of binary digits over a system when the signal is perturbed by various types of noise. Some of the properties of “ideal” systems which transmit at this maxmum rate are discussed. The equivalent number of binary digits per second for certain information sources is calculated.

CLICK HERE to order complete paper

Cheesy Hamburger Skillet

August 30, 2025
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Resolute Coffee & Bistro

August 30, 2025
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Highland College Financials | $123.6 million


2011– The History of Highlands College


Coffee in Birmingham

Standards Alabama

2028 National Electrical Safety Code

August 30, 2025
mike@standardsmichigan.com
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IEEE Standards Association Public Review

Related Issues and Recent Research | Federal Legislation

“Rain in Charleston” 1951 Thomas Fransioli

This title sets the standard of care for construction, operation and maintenance of power and telecommunication infrastructure on the supply side of the point of common coupling. It is the first title to contemplate when weather disasters happen; with most public utilities bound to its best practice assertions by statute. Pre-print of Change Proposals for changes to appear in 2028 Edition will be available by 1 July 2025; with 24 March 2026 as the close date for comments on proposed changes.

Project Introduction for the 2028 Edition (2:39 minutes)

NESC 2028 Revision Schedule

Changes proposals for the Edition will be received until 15 May 2024

Proposals for the 2028 National Electrical Safety Code

Project Workspace: Update Data Tables in IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems

Painting by Linda Kortesoja Klenczar

Federal Energy Regulatory Commission: Electrical Resource Adequacy

Relevant Research

NARUC Position on NFPA (NEC) and IEEE (NESC) Harmonization

The standard of care for electrical safety at high and low voltage is set by both the NEC and the NESC. There are gaps, however (or, at best “gray areas”) — the result of two technical cultures: utility power culture and building fire safety culture. There is also tradition. Local system conditions and local adaptation of regulations vary. Where there is a gap; the more rigorous requirement should govern safety of the public and workers.

The 2023 National Electrical Safety Code (NESC)– an IEEE title often mistaken for NFPA’s National Electrical Code (NEC) — was released for public use about six months ago; its normal 5-year revision cycle interrupted by the circumstances of the pandemic.   Compared with the copy cost of the NEC, the NESC is pricey, though appropriate for its target market — the electric utility industry.  Because the 2023 revision has not been effectively “field tested” almost all of the available support literature is, effectively, “sell sheets” for pay-for seminars and written by authors presenting themselves as experts for the battalions of litigators supporting the US utility industry.  Without the ability to sell the NESC to prospective “insiders” the NESC would not likely be commercial prospect for IEEE.   As the lawsuits and violations and conformance interests make their mark in the fullness of time; we shall see the 2023 NESC “at work”.

IEEE Standards Association: Additional Information, Articles, Tools, and Resources Related to the NESC

Office of the President: Economic Benefits of Increasing Electric Grid Resilience to Weather Outages

Research Tracks:

NARUC Resolution Urging Collaboration Between the National Electrical Safety Code and the National Electrical Code

Reliability of Communication Systems needed for the autonomous vehicle transformation

  1. Smart Grid Technologies:
    • Investigating advanced technologies to enhance the efficiency, reliability, and sustainability of power grids.
  2. Energy Storage Systems:
    • Researching and developing new energy storage technologies to improve grid stability and accommodate intermittent renewable energy sources.
  3. Distributed Generation Integration:
    • Studying methods to seamlessly integrate distributed energy resources such as solar panels and wind turbines into the existing power grid.
  4. Grid Resilience and Security:
    • Exploring technologies and strategies to enhance the resilience of power grids against cyber-attacks, natural disasters, and other threats.
  5. Demand Response Systems:
  6. Advanced Sensors and Monitoring:
    • Developing new sensor technologies and monitoring systems to enhance grid visibility, detect faults, and enable predictive maintenance.
  7. Power Quality and Reliability:
    • Studying methods to improve power quality, reduce voltage fluctuations, and enhance overall grid reliability.
  8. Integration of Electric Vehicles (EVs):
    • Researching the impact of widespread electric vehicle adoption on the grid and developing smart charging infrastructure.
  9. Grid Automation and Control:
    • Exploring advanced automation and control strategies to optimize grid operations, manage congestion, and improve overall system efficiency.
  10. Campus Distribution Grid Selling and Buying 

 


Relevant Technical Literature

IEC 60050 International Electrotechnical Vocabulary (IEV) – Part 601: Generation, transmission and distribution of electricity | April 16

Recommended Practice for Battery Management Systems in Energy Storage Applications | Comments Due March 26

Medical electrical equipment: basic safety and essential performance of medical beds for children | April 26

Medical electrical equipment: basic safety and essential performance of medical beds for children | April 26

 

Standards:

Presentation | FERC-NERC-Regional Entity Joint Inquiry Into Winter Storm Elliott

IEEE Guide for Joint Use of Utility Poles with Wireline and/or Wireless Facilities

NESC Rule 250B and Reliability Based Design

NESC Requirements (Strength and Loading)

Engineering Analysis of Possible Effects of 2017 NESC Change Proposal to Remove 60′ Exemption

National Electrical Safety Code Workspace


Joint Use of Electric Power Transmission & Distribution Facilities and Equipment

A Framework to Quantify the Value of Operational Resilience for Electric Power Distribution Systems

August 14, 2003 Power Outage at the University of Michigan

Technologies for Interoperability in Microgrids for Energy Access


National Electrical Safety Code: Revision Cycles 1993 through 2023

 


February 24, 2023

The new code goes into effect 1 February 2023, but is now available for access on IEEE Xplore! Produced exclusively by IEEE, the National Electrical Safety Code (NESC) specifies best practices for the safety of electric supply and communication utility systems at both public and private utilities.  The bibliography is expanding rapidly:

NESC 2023: Introduction to the National Electrical Safety Code

NESC 2023: Rule Changes

NESC 2023Safety Rules for Installation and Maintenance of Overhead Electric Supply

NESC 2023Safety Rules for the Installation and Maintenance of Underground Electric Supply and Communication Lines

NESC 2023: Rules for Installation and Maintenance of Electric Supply Stations

IEEE Digital Library

Grid Edge Visibility: Gaps and a road map


October 31, 2022

The IEEE NESC technical committee has released a “fast track” review of proposed changes to fault-managed power system best practice:

CP5605 Provides a definition of new Fault Managed Power System (FMPS) circuits used for the powering of
communications equipment clearly defines what constitutes a FMPS circuit for the purposes of application of the NESC
Rules of 224 and 344
https://ieee-sa.imeetcentral.com/p/eAAAAAAASPXtAAAAADhMnPs

CP5606 Provides new definitions of Communication Lines to help ensure that Fault Managed Power Systems (FMPS)
circuits used for the exclusive powering of communications equipment are clearly identified as communications lines
and makes an explicit connection to Rule 224B where the applicable rules for such powering circuits are found.
https://ieee-sa.imeetcentral.com/p/eAAAAAAASPXpAAAAAFfvWIs

CP5607 The addition of this exception permits cables containing Fault Managed Power System (FMPS) circuits used for
the exclusive powering of communications equipment to be installed without a shield.
https://ieee-sa.imeetcentral.com/p/eAAAAAAASPXuAAAAAEEt3p4

CP5608 The addition of this exception permits cables containing Fault Managed Power System (FMPS) circuits used for
the exclusive powering of communications equipment to be installed without a shield.
https://ieee-sa.imeetcentral.com/p/eAAAAAAASPXvAAAAAGrzyeI

We refer them to the IEEE Education & Healthcare Facilities Committee for further action, if any.

 


August 5, 2022

We collaborate closely with the IEEE Education & Healthcare Facilities Committee (IEEE E&H) to negotiate the standard of care for power security on the #SmartCampus  since many campus power systems are larger than publicly regulated utilities.  Even when they are smaller, the guidance in building the premise wiring system — whether the premise is within a building, outside the building (in which the entire geography of the campus footprint is the premise), is inspired by IEEE Standards Association administrated technical committees.

Northeast Community College | Norfolk, Nebraska

Today we begin a list of noteworthy changes to be understood in the next few Power colloquia.  See our CALENDAR for the next online meeting.

  1. New rules 190 through 195 cover photovoltaic generating stations.  Rule 116c adds an exception for short lengths of insulated power cables and short-circuit protection if the situation involves fewer than 1,000 volts.
  2. Rule 320B has been revised to clarify separations that apply to communications and supply in different conduit systems.
  3. Table 410-4 is based on the latest arc flash testing on live-front transformers.
  4. Rule 092A adds an exception allowing protection, control, and safety battery systems to not be grounded.
  5. Rules 234 B1, C1, D1 were revised to better present vertical and horizontal wind clearances, and to coordinate requirements with the new Table 234-7.
  6. Rule 120A was revised to provide correction factors for clearances on higher elevations.
  7. Table 253-1 has been revised to reduce the load factor for fiber-reinforced polymer components under wire tension—including dead ends—for Grade C construction.
  8. Rule 410A now requires a specific radio-frequency safety program for employees who might be exposed.
  9. In the Clearances section, as well as in the specification of the Grade of Construction in Table 242-1, the Code further clarifies the use of non-hazardous fiber optic cables as telecom providers continue to expand their networks.
  10. Revisions in the Strength & Loading sections include modified Rule 250C, which addresses extreme wind loading for overhead lines. Two wind maps are now provided instead of the previous single one. A map for Grade B, the highest grade of construction, with a Mean Recurrence Interval (MRI) of 100 years (corresponding to a one percent annual probability of occurrence) is provided in place of the previous 50–90-year MRI map. For Grade C construction, a separate 50-year MRI (two percent annual probability of occurrence) map is now provided. In the previous Code, a factor was applied to the 50–90-year MRI map for application to Grade C.
  11. Changes were also made to the method of determining the corresponding wind loads, consistent with the latest engineering practices as an example of a Code revision focused on public safety, the ground end of all anchor guys adjacent to regularly traveled pedestrian thoroughfares, such as sidewalks, and similar places where people can be found must include a substantial and conspicuous marker to help prevent accidents. The previous Code did not require the marking of every such anchor guy.
  12. Significant revisions were made in Section 14 covering batteries. Previous editions of the code were based on lead-acid technology and batteries only used for backup power. The 2023 Code incorporates the new battery technologies and addresses energy storage and backup power.
  13. A new Section 19 of the code covers photovoltaic generating stations, with sections addressing general codes, location, grounding configurations, vegetation management, DC overcurrent protection, and DC conductors. These new rules accommodate large-scale solar power projects.
  14. In the Clearances section, all rules for wireless antenna structures have been consolidated in the equipment section (Rule 238 and 239), which makes the Code more user-friendly.
  15. A new subcommittee was created focusing on generating stations, with the original subcommittee continuing to address substations.
  16. A working group is investigating Fault Managed Power Systems (FMPS) cables as the technology may be used for 5G networks. The team is looking at possible impacts, including clearances and work rules.

 


February 18, 2021

 

Several proposals recommending improvements to the 2017 National Electrical Safety Code (NESC) were submitted to the IEEE subcommittees drafting the 2022 revision of the NESC.   Some of the proposals deal with coordination with the National Electrical Code — which is now in its 2023 revision cycle.  Keep in mind that that NESC is revised every 5 years at the moment; the NEC is revised every 3 years.

The original University of Michigan standards advocacy enterprise has been active in writing the NESC since the 2012 edition and set up a workspace for use by electrical professionals in the education industry.   We will be using this workspace as the 2022 NESC continues along its developmental path:

IEEE 2022 NESC Workspace

The revision schedule — also revised in response to the circumstances of the pandemic — is linked below::

NESC 2023 Edition Revision Schedule*

 

The NESC is a standing item on the 4-times monthly teleconferences of the IEEE Education & Healthcare Facilities committee.  The next online meeting is shown on the top menu of the IEEE E&H website:

IEEE E&H Committee

We have a copy of the first draft of the 2023 NESC and welcome anyone to join us for an online examination during any of Power & ICT teleconferences.  See our CALENDAR for the next online meeting.

Business unit leaders, facility managers and electrical engineers working in the education facilities industry may be interested in the campus power system reliability database.   Forced outages on large research campuses, for example, can have enterprise interruption cost of $100,000 to $1,000,000 per minute.    The campus power system forced outage database discriminates between forced outages attributed to public utility interruptions and forced outages attributed to the university-owned power system.   The E&H committee will convey some of the discipline applied by the IEEE 1366 technical committee into its study of campus power systems and, ultimately, setting a benchmark for the standard of care for large university power systems.

 

 

* The IEEE changed the nominal date of the next edition; likely owed to pandemic-related slowdown typical for most standards developing organizations.

Issue: [16-67]

Contact: Mike Anthony, Robert G. Arno, Lorne Clark, Nehad El-Sharif, Jim Harvey, Kane Howard, Joe Weber, Guiseppe Parise, Jim Murphy

Category: Electrical, Energy Conservation & Management, Occupational Safety

ARCHIVE: University of Michigan Advocacy in the NESC 2007 – 2017


LEARN MORE:

P1366 – Guide for Electric Power Distribution Reliability Indices 

University Design Guidelines that reference the National Electrical Safety Code

 

Colloquy (August)

August 29, 2025
mike@standardsmichigan.com
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Open agenda; Not Too Organized. Whatever anyone wants to talk about.  We do this once every month.  Yesterday’s “Student Accommodation” syllabus slid out of view for part of the day so it is reposted today.  Use the login credentials at the upper right of our home page.

Normal Academic Year Hours at our State Street Office: 8:30 AM – 4:00 PM

Join us for lunch 11:45 AM – 1:15 PM every Third Wednesday of the month

University of Michigan Golf Course Dining Facility

 



Retrodiction

Education & Healthcare Facility Electrotechnology Committee

 

 

Best Coffee Spots Near Campus

August 29, 2025
mike@standardsmichigan.com
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“The coffee-house is an original British institution, but as there are daily effusions of wit and humor

in several of these little periodical papers, I think we may be justly said

to have our Coffee-houses among us.”

(From “The Spectator,” No. 9, March 10, 1711)

Michigan Central | Major Projects University of Michigan Capital Plan

Ellie Younger: Best Coffee Spots Near Campus

Artisanal coffee departs from mass-market approaches and replaces it with emphasis on craftsmanship, quality, and attention to detail throughout the entire process—from cultivation to brewing.  Key aspects:

» Artisanal coffee producers often prioritize high-quality beans. They might focus on specific varieties, regions, or even single-origin beans, showcasing unique flavors and characteristics.

» The roasting process is considered an art in itself. Artisanal coffee roasters carefully roast the beans to bring out the best flavors. They may experiment with different roasting profiles to achieve specific taste profiles.

» Unlike mass-produced coffee, artisanal coffee is often roasted in smaller batches. This allows for better quality control and the ability to pay closer attention to the nuances of each batch.

» Artisanal coffee is appreciated for its distinct flavor profile. Roasters and baristas might highlight tasting notes, aromas, and other characteristics that make each cup unique.

» Artisanal coffee shops or enthusiasts often explore various brewing methods, such as pour-over, AeroPress, or siphon brewing. These methods can be more time-consuming but are believed to extract the best flavors from the beans.

From the way the beans are ground to the water temperature during brewing, artisanal coffee enthusiasts pay attention to every detail to ensure a superior cup of coffee.

— Publisher Marketing

The Decline of Men in Colleges

The Great Good Place: Ray Oldenburg

 

“I have often pleased myself with considering the two different scenes of life which are carried on at the same time in those different places of rendezvous, and putting those of the playhouse and the coffee-house together.”

(From “The Spectator,” No. 10, March 12, 1711)

America’s Cultural Revolution: How the Radical Left Conquered Everything

“For decades, left-wing radicals patiently built a revolution in the shadows. Then suddenly, after the death of George Floyd, their ideas exploded into American life.

Corporations denounced the United States as a “system of white supremacy.” Universities pushed racially segregated programs that forced students to address their racial and sexual “privilege.” And schools injected critical race theory in the classroom, dividing children into “oppressor” and “oppressed.”

In this New York Times bestseller, Christopher F. Rufo exposes the inner history of the left-wing intellectuals and militants who slowly and methodically captured America’s institutions, with the goal of subverting them from within. With profiles of Herbert Marcuse, Angela Davis, Paulo Freire, and Derrick Bell, Rufo shows how activists have profoundly influenced American culture with an insidious mix of Marxism and racialist ideology. They’ve replaced “equality” with “equity,” subverted individual rights in favor of group identity, and convinced millions of Americans that racism is endemic in all of society. Their ultimate goal? To replace the constitution with a race-based redistribution regime, administered by “diversity and inclusion” commissars within the bureaucracy.

America’s Cultural Revolution is the definitive account of the radical Left’s long march through the institutions. Through deep historical research, Rufo shows how the ideas first formulated in the pamphlets of the Weather Underground, Black Panther Party, and Black Liberation Army have been sanitized and adopted as the official ideology of America’s prestige institutions, from the Ivy League universities to the boardrooms of Wal-Mart, Disney, and Bank of America. But his book is not just an exposé. It is a meticulously-researched and passionate refutation of the arguments of CRT—and a roadmap for the counter-revolution to come.”

Manhattan Institute


“To be at home is to have a place in the world which is yours, where you are not a stranger and where you find the outlines of your identity. In the modern world, however, where the sense of home has been eroded by technology and bureaucracy, architecture can create a substitute for this sense, by defining spaces which answer to the dreams and memories of the people who live in them.”
— Roger Scruton

Excellence in Facilities Management

Why You Need Standards

August 29, 2025
mike@standardsmichigan.com

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Department of Justice Antitrust Case Filings

When we talk about standards in our personal lives, we might think about the quality we expect in things such as restaurants and first dates. But the standards that exist in science and technology have an even greater impact on our lives. Technical standards keep us safe, enable technology to advance, and help businesses succeed. They quietly make the modern world tick and prevent technological problems that you might not realize could even happen…”

Technical Requirements for Weighing & Measuring Devices

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