Pagemike@standardsmichigan.com, Author at Standards Michigan

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Project Zambia

Scotland

A Procedure to Estimate the Energy Requirements for Lighting

Giuseppe Parise – Luigi Martirano – Luigi Parise

Sapienza, University of Rome

Abstract: The amount of the electrical energy used for the interior lighting of medium and large buildings is generally considerable. The European Standard EN15193 was devised to establish conventions and procedures for the estimation of energy requirements of lighting in buildings by an energy performance numeric indicator. This methodology is based on the three derating factors that consider the influence of the daylight exploitation, the occupancy behavior and, if present, of a constant illuminance sensor. The factors are evaluated by a statistical approach on the basis of general reference data tabulated by the same Standard, not considering more detailed parameters of the control system that can impact severely in the effective energy savings. The Standard methodology appears extremely useful for a preliminary evaluation. For a more accurate evaluation, this paper suggests an improvement of the procedure that considers the effective operation time and occupancy behavior, the type of control and lamps, the number of control groups, the technique of modulation (dimming or switching), and the delay in turning off. The suggested procedure is compared with the Standard one to highlight the improvements.

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Energy performance of buildings: An useful procedure to estimate the impact of the lighting control systems

Topology of Continuous Availability for LED Lighting Systems

Gallery: Doctoral Dissertations

Dr. Jill Jacobs-Biden: Student Retention at the Community College: Meeting Student’s Needs

Michelle Obama: Princeton-Educated Blacks and the Black Community

Dr. Claudine Gay: Taking charge: Black electoral success and the redefinition of American politics

Ibram X. Kendi (Henry Rogers): The Black Campus Movement: An Afrocentric Narrative History of the Struggle to Diversify Higher Education, 1965-1972

Martin Luther King, Jr.: A Comparison of the Conceptions of God in the Thinking of Paul Tillich and Henry Nelson Wieman

Hilary Clinton: There is Only the Fight…

John Kennedy: Appeasement at Munich

Janet Yellen: Employment, Output and Capital Accumulation in an Open Economy: A Disequilibrium Approach.

John Nash: Non-Cooperative Games

Reflections / John Nash

“The Crisis in Higher Ed & Why Universities Still Matter”

Cinq ans après

“There’s no escape from belief”
— Jordan Peterson

“Prometheus creating Man in the presence of Athena” 1802 | Jean-Simon Berthélemy

Fire Safety

Duncan Stroik Architect

“The ideal architect should be a man of letters, a skillful draftsman, a mathematician,

familiar with historical studies, a diligent student of philosophy, acquainted with music,

not ignorant of medicine, learned in the responses of jurisconsults,

familiar with astronomy and astronomical calculations.”

— Vitruvius

Duncan G. Stroik is a practicing architect, author, and Professor of Architecture at the University of Notre Dame specializing in religious and classical architecture. Gathered here are images from Christ Chapel, Hillsdale College Michigan. His award-winning work includes the Our Lady of the Most Holy Trinity Chapel in Santa Paula, California, the Shrine of Our Lady of Guadalupe in LaCrosse, Wisconsin, and the Cathedral of Saint Joseph in Sioux Falls, South Dakota.

A frequent lecturer on sacred architecture and the classical tradition, Stroik authored The Church Building as a Sacred Place: Beauty, Transcendence and the Eternal and is the founding editor of Sacred Architecture Journal. He is a graduate of the University of Virginia and the Yale University School of Architecture. Professor Stroik is the 2016 winner of the Arthur Ross Award for Architecture. In 2019, he was appointed to the U.S. Commission of Fine Arts.

Sacred Spaces

“Ten Books on Architecture” 30-20 B.C | Vitruvius

Church Facility Management

Perfect Irish Coffee

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Eggnogg

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Oxford College Student Center

Emory University Facilities Management

Standards Georgia

💙 Atlanta quad, late winter. 💛

Photo by Emory College student Khushi Niyyar pic.twitter.com/pv3qiEngvM

— Emory University (@EmoryUniversity) February 19, 2024

What an incredible weekend for our swimming & diving teams! The women’s and men’s teams dominated at the UAA conference championships, with both bringing home their 25th consecutive conference titles! Women’s recap: https://t.co/ByXJDpa61F Men’s recap: https://t.co/GTPzPEHyOo pic.twitter.com/yT3UJME2Cd

— Emory University (@EmoryUniversity) February 19, 2024

“Midnight Train To Georgia” 1973 | written in his spare time by Jim Weatherly star football quarterback @OleMiss
https://t.co/Yj1iMkLZRK
print(“Lunch Hour 1600 UTC”)\n weekday(2)
print(“American Standard”)@SchoolofRockUSA https://t.co/yjhiCTCPoS pic.twitter.com/BfIE0wwjWz

— Standards Michigan (@StandardsMich) October 25, 2023

Inglenook

Standard for Portable Fire Extinguishers

Standard for Portable Fire Extinguishers | Free Access to the 202o Edition

Lorem Ipsum

Transfer Equipment

Today at the usual hour we review the switch assemblies commonly found in educational settings for sustaining power continuity. This technology can be viewed as a system of devices or as an assembly of equipment. Use the login credentials at the upper right of our home page.

Electrician University:

Electrical transfer equipment refers to devices and systems used to transfer electrical power from one source to another, ensuring a continuous and reliable power supply. This equipment is essential in various applications, including residential, commercial, and industrial settings.

Some common types of electrical transfer equipment include:

Automatic Transfer Switch (ATS):
- Automatically transfers the load from the primary power source to a backup power source (such as a generator) during a power outage.
- Ensures continuous power supply without manual intervention.
Manual Transfer Switch (MTS):
- Requires manual operation to transfer the load from the primary power source to a backup power source.
- Used in situations where automatic transfer is not necessary or desired.
Static Transfer Switch (STS):
- Uses solid-state components to transfer the load between two power sources without any mechanical movement.
- Provides fast and reliable power transfer, often used in data centers and critical applications.
Bypass Isolation Transfer Switch:
- Allows maintenance or testing of the transfer switch without interrupting the power supply to the load.
- Provides a bypass path for the power during maintenance.
Load Transfer Panels:
- Distributes power from multiple sources to various loads, managing the transfer of power to ensure stability and reliability.
Generator Transfer Switch:
- Specifically designed for transferring power between the utility grid and a generator.
- Ensures that the generator can supply power during outages and isolates it when the main power is restored.
Dual Power Automatic Transfer Switch (DPATS):
- Used in systems with dual power sources to automatically transfer the load between them.
- Ensures redundancy and reliability in power supply.

These devices are crucial in maintaining the stability and reliability of power systems, especially in environments where power continuity is critical, such as hospitals, data centers, and industrial facilities.

FREE ACCESS: NATIONAL ELECTRICAL CODE

The National Electrical Code covers Uninterruptible Power Supplies primarily in Article 480, titled “Storage Batteries,” and Article 700, titled “Emergency Systems.”

Here are the relevant sections:

Article 480 – Storage Batteries: This article addresses the installation and maintenance of batteries, including those used in UPS systems. It provides guidelines for battery enclosures, ventilation, and connections to ensure safe operation.
Article 700 – Emergency Systems: While this article focuses on emergency power systems, it includes provisions that can apply to UPS systems used as part of these systems. It covers installation, maintenance, and operational requirements to ensure reliable emergency power.
Article 701 – Legally Required Standby Systems: Similar to Article 700, this article covers systems that must provide power during emergencies but may not require the same level of reliability. UPS systems used in these applications must comply with the relevant provisions.
Article 702 – Optional Standby Systems: This article covers standby power systems that are not legally required but are installed for convenience or operational continuity. It includes guidelines for the installation and maintenance of UPS systems used in these applications.
Article 705 – Interconnected Electric Power Production Sources: This article provides guidelines for systems that include UPS as part of interconnected power sources, such as those in renewable energy setups.
Article 708 – Critical Operations Power Systems (COPS): This article addresses power systems required to support critical operations. UPS systems used in these applications must meet stringent reliability and operational requirements.

For specific details, refer to the current edition of the NEC as it contains the exact language and requirements for compliance.

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