Multimode systems are complex energy storage systems that can operate in utility interactive or island mode – and the market for these systems is experiencing exponential growth. Whether providing backup power when the grid is down, operating in self consumption mode, or reducing peak demand charges, there are numerous use cases for PV systems with energy storage that interact with the utility grid. Lessons include detailed design considerations for AC and DC coupled systems, along with analyzing equipment specifications and thorough design examples. National Electrical Code (NEC®) and other code requirements are addressed in detail along with best practice design considerations for battery-based systems.

PREREQUISITE COURSES: Before participating in PVOL303, students MUST complete PV101 or PVOL101 AND PVOL203 or PV203, equivalent training from another organization, have NABCEP certification, or demonstrate field experience and pass two placement quizzes.

QUÉ APRENDERÁS:

• Define multimode system terminology
• Describe goals and applications of multimode systems
• Detail basic component layouts of multimode systems
• Define microgrid systems and diagram component layouts for microgrid applications
• List applications for multimode systems
• Distinguish between back-up and self-consumption use cases
• Examine daily and annual data to perform a load analysis
• Review battery bank sizing
• Identify PV array sizing methods and variables for multimode systems
• Calculate minimum PV array size to meet load requirements
• Calculate what percentage of overall annual consumption will be offset by selected PV array size
• Analyze data required to specify a multimode inverter
• Differentiate between sizing considerations for internal and external AC connections
• Describe various configurations for stacking and clustering multiple inverters
• Describe when and why advanced inverter functions are used
• Discuss the equipment and designs needed for advanced multimode functions
• Analyze each advanced multimode function
• List data needed to perform an accurate financial analysis of systems that use advanced multimode functions
• Describe factors that can affect the financial analysis of systems using advanced multimode functions
• Describe the National Electrical Code (NEC®) Articles that apply to the different parts of PV and energy storage systems (ESS)
• Identify specific requirements for ESS and systems interconnected with a primary power source
• List relevant building & fire codes
• Communicate specific requirements for workspace clearances, disconnects, & OCPD
• Describe PV system requirements that affect ESS installation
• List ESS labeling requirements
• Review DC coupled systems, including advantages and disadvantages
• Discuss MPPT charge controller operations and options
• Review charge controller sizing for grid-tied systems
• Design a DC coupled multimode PV system for a residential application
• Define operating modes of an AC coupled PV system while grid-connected or in island mode
• Explain charge regulation methods of grid-direct inverter output
• Review AC coupled PV system design strategies
• Evaluate equipment options for AC coupled multimode applications
• Design an AC coupled multimode PV system for a residential application
• Define Energy Storage System (ESS)
• Describe criteria for evaluating energy storage system configurations and applications
• Design ESS system for back-up power
• Describe large-scale energy storage system applications and functions; review use case examples
• Analyze equipment configuration options for large-scale AC and DC coupled systems
• Formulate questions to enable design optimization of large-scale energy storage systems

Note: SEI recommends working closely with a qualified person and/or taking PV 202 for more information on conductor sizing, electrical panel specification, and grounding systems. These topics will be part of this course, but they are not the focus.

QUÉ APRENDERÁS:

• Discuss the basics of policy and its effect on the solar industry
• Identify resources to learn more about policy and keep up to date with new developments
• Describe general sales tips
• Discuss common objections
• Identify techniques to close a sale
• Identify customer motivations and needs
• Discuss project timeline with customer
• Manage customer expectations and advise about PV system limitations
• Discuss manufactures, installation, and roof warranties
• Explain expected system performance
• Identify jurisdictional issues (zoning, fire marshal regulations) and city, county, and utility requirements
• Understand electric bill terminology, key information, and billing procedures
• Recognize any variations in energy use
• Determine property type, house orientation, roof tilt/angle, and available area
• Identify any shading and evaluate obstructions
• Estimate array size based on customer budget, kWh consumption, and / or available roof area
• Price array size based on average $/watt
• Develop price range, savings estimate, and preliminary economic analysis
• Present (verbal / brief) initial ballpark proposal and benefits, discuss customer’s budget limits
• Identify overall customer considerations and general safety requirements
• Define the electrical meter and main service panel information required
• Identify point of interconnection, location for electrical equipment, and location for conduit runs
• Describe factors to consider with data monitoring
• Determine maximum PV capacity that can be connected to a specific service and/or electrical panel
• Create a final array layout
• Accurately estimate PV system production
• Define metrics to evaluate labor and material costs
• Calculate an average residential system cost & identify the major contributing factors
• Identify the main benefits of reviewing actual build data (job costing)
• Define property tax exemptions, tax deductions, transfer credits, sales tax exemptions
• Explain performance based-initiatives
• Evaluate taxability of credits and other incentives
• Review net-metering and feed-in tariff laws
• Identify different utility financial structures and regulated and deregulated markets
• Describe demand charges & the duck curve
• Outline financing basics
• Explore ownership models
• Calculate annual and cumulative cash flow, determine payback
• Calculate the environmental benefits of installing solar
• Identify what to include in a proposal, the proposal process, and what tools are available to generate proposals