Workshop Overview:
Join us for a comprehensive workshop in which we will share over 20 years of combined experience designing energy storage, solar plus storage, and microgrid projects that allow developers, utilities, co-ops, and grid operators to optimize the design of grid energy storage systems. This two-day workshop is a great opportunity for developers to learn (hands-on) how to design stand-alone and solar plus storage battery systems to minimize project LCOS. Attendees will also learn step by step how grid-tied batteries (lithium and long-duration energy storage) can be an efficient non-wires alternative! We will cover all steps involved in the process! Starting from project opportunity identification to performing detailed energy storage simulations to deduce energy storage system sizing, technology, and cost for stacked applications.
This interactive session will delve into the intricacies of planning, designing, and deploying grid batteries.
Workshop Objectives:
- BESS Sizing Requirements: Learn how to intelligently deduce power and energy capacity requirements for energy storage systems across various grid applications.
- Optimize Battery Technology Selection: Learn how to select the most suited battery technology and OEM for each project based on its use case, location, and dispatch profile.
- Augmentation Schedule Optimization: Learn how to accurately design project augmentation schedules based on deduced degradation, lithium pricing forecast, discount rate, tariffs, and other project details.
- Battery Dispatch Profile Creation: Construct detailed battery dispatch profiles for projects planned in different markets like ERCOT, PJM, CAISO, and others.
- Smart Use-case Planning: Learn how to identify grid services that are most profitable, by identifying degradation and losses associated with each. Avoid planning use cases that seem lucrative (high revenue), but will swiftly degrade your BESS.
- Performance Modeling: Gain insights into assessing battery losses, capacity degradation, and evaluating round-trip efficiency. Develop skills to predict the degradation curves of lithium battery systems.
Keynote Session:
Presenters: Konstantinos Chiotinis, Engineering Supervisor at DTE Energy & Jacob Rushkoff, Bulk Energy Storage Engineer at EPRI
Title : "Optimizing Augmentation Scheduling for Grid-Scale Battery Energy Storage Systems through Modeling Battery Degradation"
Abstract: Energy storage is vital for the renewable energy transition, but lithium-ion batteries degrade over time, requiring augmentation to maintain performance. This presentation will highlight DTE Energy’s collaboration with EPRI using Storlytics to optimize augmentation schedules for grid-scale Battery Energy Storage Systems (BESS). It will explore how different usage patterns affect battery degradation, the financial impact of optimized augmentation, and the importance of degradation modeling. The insights gained from the study will illuminate how degradation modeling enhances understanding of battery degradation and how it can be used in augmentation scheduling for better financial outcomes and system longevity.
Why Attend?
- Engage with experts in the field of grid energy storage.
- Participate in hands-on sessions to apply concepts to real-world scenarios.
- Network with fellow developers, utilities, and consultants.
- Receive resources and tools to enhance your planning capabilities.
- Receive 14 hours of PDH!
Need a Discount?
We're offering discounts to small companies. Please reach out to support@storlytics.net to request a discount code.
Want to Attend for Free?
We're offering free registration to students, non-profit and government organizations!! Secure your free ticket by emailing support@storlytics.net.
