Safety in Battery Storage

Safety in Battery Storage

April 19, 2022 | Online :: Central Time

“We are in the process of building our first 20MW BESS. This session provides lots of background information for safety in design, operating and maintenance, and emergency preparedness.” Senior Apparatus Engineer, SaskPower

“Great course to learn of the governing codes & standards and what they require.” Assistant Mechanical Engineer, NYPA

Battery energy storage systems (BESS) are used for a variety of applications, including frequency regulation, demand response, transmission and distribution infrastructure deferral, integration of renewable energy, and microgrids. Battery storage technology is vital, as it turns power generated by non-dispatchable energy sources — such as wind and solar — into dispatchable ones, thereby improving grid reliability and allowing the integration of even more renewable capacity.

As the BESS industry grows and demand for renewable energy increases, ESS facilities will likely continue to proliferate in communities and urban areas around the world, providing multiple benefits, along with some risks. Lithium-ion batteries are generally safe, but they have been linked to fire, explosion, and hazardous material exposure under several conditions. As storage continues to emerge into the utility and power system mainstream, gaps in safety practices for energy storage are becoming apparent.

This course will provide an in-depth overview of the hazards and operating risks associated with battery storage. In addition, it will provide a brief review of the different battery types, updated standards that address safety, how to design and operate for safety, and testing standards. 

Learning Outcomes

  • Review the different types of battery storage
  • Identify the different types of safety hazards for batteries
  • Review the hazards associated with each type of battery
  • Discuss the testing standards and certifications for safety
  • Discuss how to design for safety and operating safely
  • Examine installation measures for batteries
  • Discuss decommissioning & removal practices

 

Agenda

Tuesday, April 19, 2022 : Central Time

8:45 – 9:00 a.m.
Log In and Welcome

12:15 – 1:00 p.m.
Lunch Break

9:00 a.m. – 4:15 p.m.
Course Timing

9:00 – 9:15 a.m. :: Overview and Introductions

Quick Review of Battery Types

    1. Lead-Acid
    2. Lithium-Ion
    3. Other Non-flow chemistries that are commercial
    4. Redox Flow batteries
    5. Organic Flow batteries
    6. Plating Flow batteries

Battery Safety Hazards

    1. Leakage and spills
    2. Stray voltage
    3. Off-gassing
    4. Thermal run away
    5. Toxic fumes
    6. Hazardous waste
    7. Power quality
    8. Other

Battery Type vs. Hazard

    1. Which battery types have which hazards
    2. Variations in a chemical family (e.g. Li-Ion)

Standards That Apply to Safety

    1. NFPA 855
    2. NFPA (NEC) 70
    3. IEEE 1625
    4. IEEE 1725
    5. ISO/IEC 17025
    6. UN/DOT 38.3
    7. Other safety standards

Testing Standards and Certifications

    1. UL 1642 Lithium Cell
    2. UL 2054 Safety Requirements for Household and Commercial Batteries
    3. UL 2580
    4. UL 1989 Standby Batteries
    5. UL/CSA/IEC 60950 (may be evaluated in conjunction with UL 2054)

Designing for Safety

    1. Which standards apply to your project
    2. Which chemistry best fits your use case(s)
    3. Optimizing non-flow batteries deployment
      • Siting considerations
      • Containment measures
    4. Civil and electrical infrastructure limits/issues/concerns
    5. Housing and other occupied structures around your site
    6. What comes “out of the box” from the battery manufacturer
    7. ALL hazards associated with specific chemistry chosen

General Installation Measures

    1. Fire suppression system
    2. The right firewalls/construction type
    3. Enough room to get emergency vehicles into the site
    4. Sources of water for emergency use
    5. Secondary containment
    6. Proper grounding
    7. Arc flash prevention/safe distances
    8. Automated protection system(s) — electrical fire, off-gassing etc.
    9. Proper sensors for any hazard
    10. Etc.

Operating Safety

    1. Use case and the battery limits
    2. Maintenance
    3. Limits to operation

Decommissioning & Removal

    1. Batteries life and variations
    2. Design that incorporates decommissioning

*Throughout the discussion, to illustrate points, compare and contrast safety concerns, design issues, etc., two battery deployment examples will be used — a 1 MW/4 MWH Li-Ion battery setup and a 5MW/40 MWH flow battery

Instructor

Doug Houseman, Utility Modernization Lead, Burns & McDonnell

Doug Houseman is a long-time industry veteran who is a member of the Gridwise Architecture Council (GWAC), chair of the IEEE Power & Energy Society (PES) Intelligent Grid and Emerging Technology Coordinating Committee, and a NIST Resiliency Fellow. He has been working on storage issues since 1980, when he was involved with several DOD projects.

Online Delivery

We will be using Microsoft Teams to facilitate your participation in the upcoming event. You do not need to have an existing Teams account in order to participate in the broadcast – the course will play in your browser and you will have the option of using a microphone to speak with the room and ask questions, or type any questions in via the chat window and our on-site representative will relay your question to the instructor.

  • IMPORTANT NOTE: After November 30 you will not be able to join a Teams meeting using Internet Explorer 11. Microsoft recommends downloading and installing the Teams app if possible. You may also use the Edge browser or Chrome.
  • You will receive a meeting invitation will include a link to join the meeting.
  • Separate meeting invitations will be sent for the morning and afternoon sessions of the course.
    • You will need to join the appropriate meeting at the appropriate time.
  • If you are using a microphone, please ensure that it is muted until such time as you need to ask a question.
  • The remote meeting connection will be open approximately 30 minutes before the start of the course. We encourage you to connect as early as possible in case you experience any unforeseen problems.

Register

Please Note: This event is being conducted entirely online. All attendees will connect and attend from their computer, one connection per purchase. For details please see our FAQ

If you are unable to attend at the scheduled date and time, we make recordings available to all registrants for three business days after the event

Event Standard RateAttendees
Single Seat - Safety in Battery StorageUS $ 895.00
Pack of 5 SeatsUS $ 3,580.00
Pack of 10 SeatsUS $ 6,265.00
Pack of 20 SeatsUS $ 10,740.00
Call us at 303.770.8800 if you have any specific questions on the volume discounts
* all other discounts do not apply to seat packs

This event has the following related events:

Urban Energy StorageUS $ 895.00
Pack of 5 connectionsUS $ 3,580.00
Pack of 10 ConnectionsUS $ 6,265.00
Pack of 20 ConnectionsUS $ 10,740.00

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Take advantage of these discounts!

  • Attend the Course and Urban Energy Storage and pay US $ 1,695.00 per attendee (save US $ 95.00 each)

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 18, 2022 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

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CEUs

Credits

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EUCI is accredited by the International Accreditors for Continuing Education and Training (IACET) and offers IACET CEUs for its learning events that comply with the ANSI/IACET Continuing Education and Training Standard. IACET is recognized internationally as a standard development organization and accrediting body that promotes quality of continuing education and training.

EUCI is authorized by IACET to offer 0.6 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.


Upon successful completion of this event, program participants interested in receiving CPE credits will receive a certificate of completion.

Course CPE Credits: 7.0
There is no prerequisite for this Course.
Program field of study: Specialized Knowledge
Program Level: Beginner/Intermediate
Delivery Method: Group-Live presented online due to COVID-19
Advanced Preparation: None

CpeEUCI is registered with the National Association of State Boards of Accountancy (NASBA) as a sponsor of continuing professional education on the National Registry of CPE Sponsors. State boards of accountancy have final authority on the acceptance of individual courses for CPE credit.

 

 

Who Should Attend

Individuals working in the following areas will benefit from attending this event:

  • Distributed level renewable energy project developers
  • Grid level renewable energy project developers
  • Utility management
  • Technical staff
  • Regulators
  • RTOs/ISOs
  • Consultants
  • Equipment manufacturers
  • Renewables system
  • Solicitation / Procurement staff
  • Resource Planning staff
  • Transmission staff
  • Distribution staff
  • Regulatory staff
  • Storage vendors

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