Reciprocal Electrical Council Inc. - April 3, 2024 (recimi.org)

PV Technology, Engineering Design, NEC Code & 2017-2023 Changes + PV Product & Installation Safety Overview

Presentation Outline for RECI Lunch Workshop, Wed, Apr 3, 2024

By J.J. Sinkular, PhD, Founder & Owner, SELE Solutions, LLC

1.       Does Solar PV make practical sense for generating energy in Michigan?

a.       Levelized Cost of Electricity/Energy (LCOE) compares the cost of electricity from Solar PV vs. other forms of energy generation, e.g. coal, natural gas, nuclear, wind, etc. and shows that it makes practical sense even without the help of government financial incentives.

b.       Global & U.S. data shows the steady rise in PV installations over the past decade and the projected rise into the future.

c.        Utility scale vs. Distributed Generation (commercial, industrial, residential) PV installations.

2.       Government Financial Incentives to encourage PV Installations because they benefit our (grand)children!

a.       Share information on federal, state and local financial incentives available to businesses and individuals through the Inflation Reduction Act for PV, other renewable energy and energy efficiency solutions.

3.       Technical System Overview of PV Solutions

a.       Physics underlies PV cells and modules.

b.       Basic all-encompassing electrical diagram that shows how the various PV system components interact together to produce electrical power.

c.        Common manufacturers of PV system components and associated technologies.

d.       Typical solar PV cell efficiency and new technologies.

e.       Solar PV Engineering Design Process

                                                               i.      What distinguishes “any old design” from a “high LCOE design”?

f.         Solar Insolation across the U.S. and elements of PV System Design that help Optimize Electric Power Production & LCOE at each unique geographical location.

g.        PV Plan Documents for Design, Engineering & Commissioning

4.       NEC Code for PV

a.       An Overview of Sections relevant to PV Code

b.       Code Changes from 2017-2023

5.       Safety & Reliability for Solar PV Installations: An Overview

a.       Product Safety:

                                                               i.      Nationally Recognized Testing Labs (NRTLs) and the relevant PV system component testing standards: e.g. UL 1703, 61730, 1741; CSA; Intertek ETL; CE

                                                              ii.      IEEE Standards for Interconnection & Interoperability: 1547, 2030

                                                            iii.      International Electrotechnical Commission (IEC) certifications for PV system components e.g., 61215, 61646, 60364-4-41, 62108, 61701

b.       Installation Safety:

                                                               i.      OSHA 29 U.S. CFR: Chap 29, Part 1926

                                                              ii.      NEC 70E, Electrical Safety in the Workplace

                                                            iii.      International Fire Code (IFC) Requirements for Solar PV Installations

                                                            iv.      Specific Electrical Safety Considerations for Solar PV Installations

                                                              v.      The role of the AHJ & Utility in Permitting & Commissioning

6.       PV System Monitoring, Maintenance and Efficiency