Serving the energy industry for over 30 years
By - Jon Brown

Distributed Energy Resources (DERs) Fundamentals
What Utilities and Other Power Organizations Need to Know to Adjust Their System Planning
April 20-21, 2020 | Anaheim, CA

Download PDF
 

Overview

This program on distributed energy resources (DERs) is a primer.  It is intended to collect — in one forum — the content necessary for utilities, load-serving entities (LSEs), grid operators, project developers and others to develop their own internal system for evaluating the impact of DG and DER development on their system(s).  It is not intended to be an advocacy forum for or against the adoption of these technologies, nor for their implementation.  Nor is it intended to offer detailed instruction in the analytical instruments referenced during the program.  It will, however, provide a useful cross-disciplinary blueprint for reference, adaptation and refinement.

Learning Outcomes

Through presentations and panel discussions, attendees will have the opportunity at this course to consider the following elements as to how distributed energy resources (DER) are changing utility and power industry norms:

  • Evaluate the different types and classes of DERs and their special requirements
  • Identify the operational differences between renewable and conventional energy DERs
  • Review regulatory matters that determine how DERs are governed on a jurisdictional basis
  • Examine long-term planning assessment and analysis that properly incorporates DERs
  • Discuss challenges that DERs present to existing utility compacts/business models and what options are available to address these issues
  • Assess system data access and transparency requirements to facilitate DERs
  • Evaluate operational tools required for real-time DER modeling and forecasting
  • Discuss DER interconnection issues at the distribution, sub-transmission and transmission levels

Credits

AP_Logo

EUCI has been accredited as an Authorized Provider by the International Association for Continuing Education and Training (IACET).  In obtaining this accreditation, EUCI has demonstrated that it  complies with the ANSI/IACET Standard which is recognized internationally as a standard of good practice. As a result of their Authorized Provider status, EUCI is authorized to offer IACET CEUs for its programs that qualify under the ANSI/IACET Standard.

EUCI is authorized by IACET to offer 1.0 CEUs for this event.

 

Requirements for Successful Completion of Program

Participants must sign in/out each day and be in attendance for the entirety of the conference to be eligible for continuing education credit.

Instructional Methods

Case studies and PowerPoint presentations will be used in this program.

Agenda

Monday, April 20, 2020

7:30 – 8:00 a.m. :: Registration and Continental Breakfast

8:00 – 8:15 a.m. :: Welcome, Overview and Introductions


Foundation Concepts, Types and Characteristics of DERs

  • Types
    • PV
    • Energy storage
    • Electric vehicles and EV charging equipment
    • Wind energy
    • Microgrids
    • Virtual power plants (VPPs)
    • Demand side management
  • Size and location
    • Proximity/relationship to distribution utility
    • DER locational and temporal factors
  • Applicable technologies and resources
    • Renewables
    • Non-renewables
    • Both of the above with and without storage
    • Storage (standalone)
    • DSM
  • Classes
    • Customer-developed
    • Utility-developed
    • Continuum of self-supply to grid-supply
    • Behind-the-meter vs utility side-of-the-meter

9:45 – 10:00 a.m. :: Morning Break


Jurisdictional and Market Design Matters

  • DERs operating in wholesale markets
  • DERs operating in traditional vertically-integrated (non-markets) utilities’ service territories
    • Enabling legislation and state utility oversight governance
    • FERC
    • NERC
    • ISO/RTO
  • DERs in public-owned utilities’ (non-IOUs) service territories
  • Transactive energy concepts

Challenges to Existing Utility Compact/Business Model

  • Reduced system operational transparency
  • System stability and protection
  • Load (and corresponding revenue) reduction
  • Cost / value methodology selection and analysis
  • Cost / value application and imposition process
  • Cost allocation provisions and measures
  • Tariffs and market designs, utility rate structures
  • Risk evaluation and planning w/respect to reliability
  • Economic and cost-benefit analysis of DERs for regulators

What Utilities Are Doing Around the Country and Forecasting of DER Customer Adoption

  • Importance and elements of forecasting customer adoption of DERs
    • Affects the need for generation, transmission, and distribution investments
    • Dependent factors
    • Upfront cost of the DER
    • Availability and level of incentives
    • Retail rate designs that affect the bill savings from customer-sited DER
  • Survey findings of utilities to forecasting DER adoption
  • Tradeoffs in balancing transparency vs complexity

12:15 – 1:15 p.m. :: Group Luncheon


System-Level and Interconnection Aspects

  • Standards and jurisdictions
  • Criteria for interconnection
  • Interconnection practices and rules
  • Workflow and customer experience
  • Technology and tools
  • Load profile analysis
  • System layer assessment
  • Operational considerations and experience
    • Distribution level
    • Sub-transmission level
    • Transmission level

Case Study: How One Utility is Dealing with the Impacts of DER

  • Types of DERs coming onto the system
  • DER growth drivers
  • Grid impacts
    • Generation
    • Balancing
    • Transmission
    • Distribution
    • Impact on visibility
    • Voltage variability
  • Planning the system
    • Modeling challenges
    • Assessing future scenarios
  • Enabling DERs
    • Technologies and projects
    • Industry engagement and collaboration
  • Lessons learned
  • Power flow
  • Power quality
  • Dynamic impacts of DER
  • Hosting capacity analysis
  • Voltage analysis and management

3:30 – 3:45 p.m. :: Afternoon Break


Strategic Impact of DERs

  • Strategic considerations of DER
  • DER data acquisition
  • Locational value of DERs
  • Time shifting of DERs
  • Smart inverter support
  • DER business models
  • Aligning DERs to grid value
  • Digital DER opportunity

System Data Access, Transparency and Utilization

  • Systems integration and DER data analytics
  • Grid impact and optimization
  • Customer information and program optimization
  • Market strategies development
  • Leveraging DER data value
  • Load shape
  • Valuing locational costs and benefits

5:15 p.m. :: Program Adjourns for Day


Tuesday, April 21, 2020

7:45 – 8:15 a.m. :: Continental Breakfast


Long-term Assessment, Analysis and Tools

  • Determining impact studies required
  • DER planning and roadmaps
  • System power flow modeling
  • Hosting capacity requirements and availability
  • Mitigation measures identification for protection/safety limit violations
  • Valuing locational costs and benefits
  • Monitoring and control options and requirements
  • Infrastructure requirements for DER
  • Revenue impacts from DER

10:00 – 10:20 a.m. :: Morning Break


DER Integration — Value Optimization

  • System impacts
  • Customer adoption rate
  • Relationship of incentives to load shapes
  • ADMS systems
  • DERMS
  • DER integration value stream
  • Demand response – load shifting value
  • Pricing DERs
  • Energy storage as a game changer
  • Case Studies

12:15 p.m. :: Course Adjourns

Instructors

Daniel Haughton, Manager – Distribution Engineering and DER Interconnections, Arizona Public Service (APS)

Daniel Haughton is Manager of Distribution Engineering and DER Interconnections at Arizona Public Service (APS).  He manages teams that plan the future distribution infrastructure for the rapidly growing state of AZ, as well as residential and commercial renewable technology integration.  He has worked at Arizona Public Service (APS) since 2012 in various engineering and technical leadership roles, including Transmission Planning, Transmission Operations Engineering, and Distributed Energy Resource (DER) Engineering.  Dr. Haughton is also an advisor to EPRI and NREL Technical Advisory Committees on DER Interconnection practices and Distribution Planning Modernization.  Before joining APS, he served in various roles at Tampa Electric, CAISO, Intel Corp and Belize Electricity Limited. He is an adjunct professor of electrical engineering at Arizona State University.


Aram Shumavon, CEO, Kevala, Inc.

Aram Shumavon is co-founder and CEO at Kevala Analytics.  He has more than 15 years of experience in regulated energy markets, with a focus on high penetration distributed and renewable energy resources.  Prior to forming Kevala, he was the founder and executive director of the non-profit organization, Distributed Energy Consumer Advocates. He has helped develop state and federal policy, managed the development of regulatory strategies, and created innovative market infrastructure and policy analysis tools. Mr. Shumavon’s work includes more than a decade as a senior analyst at the California Public Utilities Commission where he headed the state’s analysis of key wholesale electricity market design and environmental compliance efforts and led long-term procurement and planning efforts focused on California’s high renewables penetration future and renewables integration strategies.


Mike Coddington, Principal Engineer, National Renewable Energy Laboratory (NREL) invited

Michael Coddington is a Principal Engineer with the Integrated Devices and Systems Group at the National Renewable Energy Laboratory (NREL) – a Department of Energy owned laboratory in Colorado.  Before coming to NREL nearly 10 years ago, he worked as a Distribution Planning and network Engineer, System Planning Engineer, Key Account Executive, and numerous other roles at two electric utility companies.  His work at NREL focuses on the integration of photovoltaic systems (and other distributed generation systems) to the electric distribution system, with a focus on high penetration PV concerns and solutions.  Mr. Coddington has authored and collaborated on dozens of technical reports and papers focusing on integrating distributed generation systems onto the grid in a safe, reliable and cost-effective manner.  He is active in standards and codes development, is a Senior Member of the IEEE, was Secretary of IEEE 1547.6, and is a voting member of the UL1741 Standards Technical Panel (STP).  He received his electrical engineering degree from Colorado State University, is a licensed Master Electrician and licensed Electrical Contractor in the State of Colorado, and is a licensed commercial electrical inspector.

Location

 

Hilton Anaheim

777 W Convention Way

Anaheim, CA 92802

Reserve your room:

please call 1-714-750-4321

Room Block Reserved For:

Nights of April 19 – 20, 2020

Room rate through EUCI:

$269.00 single or double plus applicable taxes
Make your reservations prior to March 29, 2020.

Register

Please Note: Confirmed speakers do not need to register and are encouraged to participate in all sessions of the event. If you are a speaker and have any questions please contact our offices at 1.303.770.8800

EventEarly Bird Before
Friday, April 03, 2020
Standard RateAttendees
Distributed Energy Resources (DERs) Fundamentals US $ 1295.00 US $ 1495.00

Register 3 Send 4th Free!

Any organization wishing to send multiple attendees to these conferences may send 1 FREE for every 3 delegates registered. Please note that all registrations must be made at the same time to qualify.

Cancellation Policy

Your registration may be transferred to a member of your organization up to 24 hours in advance of the event. Cancellations must be received on or before March 20, 2020 in order to be refunded and will be subject to a US $195.00 processing fee per registrant. No refunds will be made after this date. Cancellations received after this date will create a credit of the tuition (less processing fee) good toward any other EUCI event. This credit will be good for six months from the cancellation date. In the event of non-attendance, all registration fees will be forfeited. In case of conference cancellation, EUCIs liability is limited to refund of the event registration fee only. For more information regarding administrative policies, such as complaints and refunds, please contact our offices at 303-770-8800

By clicking Accept or closing this message, you consent to our cookies on this device in accordance with our cookie policy unless you have disabled them. more information

By clicking Accept or closing this message, you consent to our cookies on this device in accordance with our cookie policy unless you have disabled them. You can change your cookie settings at any time but parts of our site will not function correctly without them. We use cookies during the registration process and to remember member settings.

Close