Storlytics Energy Storage is a US based energy storage software and consulting firm headquartered in Charlotte, North Carolina. Our team of PhDs and professional engineers partner with industry leading utilities , engineering consultants, Universities, and national labs to develop accurate models for grid tied battery energy storage systems. Storlytics also provides engineering and consulting services to renewable and energy storage developers, financiers, integrators and battery OEMs.
The Storlytics team work with leading battery cell/modules, inverter, and converter manufacturers to perfect their product models within the Storlytics platform. Storlytics power systems engineers bring more than 20 years of industry experience into the simulation of operation of grid tied battery energy storage systems to the Storlytics platform.
Recognizing major industry pain points in uncertainty of degradation and system loss profiles of battery energy storage systems, the Storlytics team have built the Storlytics platform to predict degradation of battery energy storage systems, allowing our users to reduce project uncertainty and risk. This also allows our users to optimize project design and inform selection of major system components like batteries and inverters.
Our clients turn to the Storlytics platform to overcome even the most complex and intricate battery use-cases, to deliver results on time and on budget, from start to finish, and in some of the most remote locations. Dedicated to delivering the right solutions for all your energy storage project needs, we recognize that working together is key for a project’s long-term success.
For business-related queries, you can reach us at: accounts@storlytics.net
Energy Storage, Renewable Energy, Grid-tied Battery Systems, Lithium Battery, Energy Storage Consulting, Battery System Modeling, Battery Degradation Estimation, Energy Storage System Design, Solar PV Design, Solar Plus Storage , Battery System Dispatch, and Battery System Optimization
Storlytics is a powerful software for modeling battery energy storage systems. It allows users to design, size and optimize grid tied battery systems by offering a user friendly interface to deduce power and energy capacity requirements for different energy storage grid applications "use-cases". It also allows users to accurately model power flow, battery losses, round trip efficiency and predict degradation curves of defined energy storage systems leveraging a wide variety of inverter and battery models, including Lithium Nickel Manganese Cobalt (NMC) and Lithium Iron Phosphate (LFP) chemistries. Storlytics can import user defined and benchmark ESS profiles to deduce actual performance of planned grid tied and renewable energy projects.
EnerVenue and Storlytics Energy Storage have been invited to participate in "Dispatches from the Energy Transition," a new webinar series hosted by Outfit and Mayfield Renewables. Check out the details below and to register for the webinar happening on Thursday, December 12th at noon PST .
#LDES#energystorage
CEO @ Cross Consulting l Principal @ Outfit l Advisor To Cleantech CEOs l Revenue Strategist
EnerVenue is challenging conventional energy storage design with its differentiated technology.
Dispatches from the Energy Transition is a new webinar series that explores emerging technologies and the projects they impact. ✅
The Promise of Long Duration Energy Storage will air next Thursday at 12 PM PST.
Join The Conversation and register 👉 https://lnkd.in/g9zuh8MY#renewableenergy#energystoragesystems#evmobility#consulting#agencylife
Developers, Private equity firms and utilities trusting Storlytics SW and Services to make BIG decisions ($100MM ones)! That's just one of the reasons 2024 was so good to us! Many more in our recap!
Happy New Year from all of us at Storlytics Energy Storage!
#energystorage#renewableenergy#innovation#smartgrids#goals#BESS#battery
Exciting Opportunity for Renewable Energy Professionals! 🌟
🔋 Learn how to master designing Battery Energy Storage Systems (BESS) by joining us for the "2025 Design of Grid Energy Storage Projects Master Workshop"—a must-attend event for anyone in the renewable energy sector.
📅 Dates: March 18th and 19th, 2025 📍 Location: Portal Building, 9319 Robert D. Snyder Rd, Charlotte, NC 28223
Workshop Overview: Join us for a comprehensive workshop, sharing over 20 years of experience designing energy storage, solar plus storage, and microgrid projects. This workshop helps developers, utilities, co-ops, and grid operators optimize grid energy storage system designs. Gain hands-on experience in designing battery systems, and minimizing project LCOS.
Workshop Objectives:
BESS Sizing Requirements: Deduce power and energy capacity for various grid applications.
Optimize Battery Technology Selection: Choose the best battery technology and OEM for each project.
Augmentation Schedule Optimization: Design augmentation schedules based on degradation and cost forecasts.
Battery Dispatch Profile Creation: Create detailed dispatch profiles for different markets.
Smart Use-case Planning: Identify profitable grid services while managing degradation and losses.
Performance Modeling: Assess battery losses, capacity degradation, and efficiency. Predict degradation curves of lithium battery systems.
Why Attend?
Engage with experts in grid energy storage.
Participate in hands-on sessions with real-world applications.
Network with developers, utilities, and consultants.
Receive resources to enhance planning capabilities.
Receive 14 hours of PDH!
Presenters: Sherif Abdelrazek, Ph.D., PE, and Sheikh Jakir Hossain, Ph.D.
Long Duration Energy Storage (LDES) technologies have the potential to transform our grids and enable further penetration of renewable energy systems. Accurate performance modeling of BESSs and LDESs alike is imperative to allow grid resource planning studies to leverage the right ES technology where it performs the best! This enables the cost-effective usage of LDESs, allowing more penetration, and leading to improving the dispatchability of renewable energy resources.
This is why LDESs are essential for decarbonization and need to scale up to 50 times faster than is currently projected, as reported by the Long Duration Energy Storage Council (LDES Council)'s 2024 annual report.
Storlytics is proud to contribute to advancing the adoption of LDESs by enabling utilities to identify their best fit and most cost-effective use cases without the need to spend years and millions on pilot projects! We're not just talking here, we're very happy to have actually completed multiple technology benchmarking analyses with EnerVenue and other LDES technologies.
🔋 Overestimating battery life? It’s a costly cycle of rapid degradation and lost revenue. Watch our video to learn how accurate estimates can save your project!
Join us in this webinar for a deep dive into long-duration energy storage (LDES) technologies, comparing them with lithium systems to assess performance, degradation, and cost-effectiveness. This session explores battery modeling, scenario simulations, and benchmarks to guide optimized energy storage solutions.
🔋 Planning a grid-tied battery project? Battery degradation can be a hidden challenge. Follow along as we break down why accurate estimates are crucial!
