ISO 9001 CertifiedNERC CompliantUL 9540FERC Order 841Pacific Gas & ElectricDuke EnergyEversourceCon EdisonXcel EnergyNational GridAESNextEra EnergyDNV GLTÜV SÜDUnderwriters LaboratoriesNFPA 855IEEE 1547ISO 9001 CertifiedNERC CompliantUL 9540FERC Order 841Pacific Gas & ElectricDuke EnergyEversourceCon EdisonXcel EnergyNational GridAESNextEra EnergyDNV GLTÜV SÜDUnderwriters LaboratoriesNFPA 855IEEE 1547
Grid-Scale Battery Storage

Store Cheaper.
Dispatch Smarter.

4.2 MWh · 98.4% Round-Trip Efficiency · 20-Year Design Life

Warehouse-scale BESS that absorbs surplus grid power at 2 a.m. and discharges at peak demand — shaving millions off utility costs before a single transformer overheats.

$2.4M
Avg Annual Savings
847 MW
Installed Capacity
31
Active Deployments
Transparent Process

Nothing Hidden Behind a Sales Call

Every step from site assessment through ongoing monitoring — with the actual methodology, not the marketing summary.

01Site Assessment

Site Assessment

We start with your utility bill — not a brochure. Our engineers pull 12 months of interval data to map your exact load profile: when you peak, how sharply, how often. That data drives every sizing decision downstream.

Methodology

Load profile analysis · 15-min interval data · Peak coincidence factor · Utility rate structure decomposition (energy + demand + TOU)

Key Parameters
Peak Demand3.8 MW (avg)
Peak Duration2.1 hrs/day
Demand Charge$18.40/kW-mo
Annual Load Factor62.4%
Rate ScheduleTOU-GS-3-D (SCE)
02Capacity Modeling

Capacity Modeling

Size too small and you clip savings. Size too large and you bury capital in idle cells. Our optimization model runs 8,760 hourly simulations against your load, the tariff structure, and degradation curves to find the crossover point where LCOS is lowest.

Methodology

Levelized Cost of Storage (LCOS) minimization · NMC/LFP cell chemistry selection · Calendar + cycle degradation model (Arrhenius + SEI growth) · Revenue stacking: demand response + energy arbitrage + ancillary services

Key Parameters
Recommended Size4.2 MWh / 2.1 MW
Cell ChemistryLFP (LiFePO₄)
Cycle Life6,000 cycles @ 80% DOD
Year-10 Capacity84.2% retained
Simple Payback4.1 years
03Engineering & Permitting

Engineering & Permitting

AHJ approval timelines vary from 6 weeks to 14 months. We've permitted systems in 22 states. Our permit package is pre-formatted for NFPA 855, IFC Chapter 12, and local fire marshal requirements — reducing back-and-forth by roughly 60%.

Methodology

NFPA 855 compliance · IFC Chapter 12 · UL 9540A fire propagation test data · Single-line electrical drawings · HVAC thermal modeling · Arc flash study · Structural load calculations

Key Parameters
AHJ Lead Time8–12 weeks (est.)
Fire SuppressionClean-agent in-rack
InterconnectIEEE 1547-2018
Enclosure RatingNEMA 4X · IP65
Seismic ZoneZone 2D — IBC 2021
04Commissioning

Commissioning

Commissioning is where paper specs meet real electrons. Every string is capacity-tested. Every protection relay is secondary-injected. The BMS is tuned against your actual load profile before we hand over keys.

Methodology

String-level capacity verification · Protection relay secondary injection · BMS parameter tuning · SCADA point-to-point · Grid-forming / grid-following mode validation · Round-trip efficiency measurement (IEC 62933-2)

Key Parameters
Commissioning5–9 days on-site
RTE Measured98.1–98.7%
Response Time< 200 ms full dispatch
SCADA IntegrationDNP3 / Modbus TCP
Warranty TriggerPost-commissioning date
05Performance Monitoring

Performance Monitoring

The system runs autonomously, but you see everything. Our operations platform streams 250+ telemetry points per second — cell voltage, temperature, SOC, power flow — and flags anomalies before they become failures.

Methodology

250+ telemetry channels · Cell-level voltage + temp monitoring · Predictive degradation alerts · Revenue optimization dispatch (day-ahead + real-time markets) · Monthly performance report vs. modeled baseline

Key Parameters
Uptime SLA99.5% contractual
Telemetry Rate250 pts/sec/system
Alert Latency< 4 sec anomaly flag
Revenue ReportingDaily · Monthly · Annual
Remote DispatchManual + AI-optimized
Revenue Stacking

Four Revenue Streams. One Asset.

A single 4.2 MWh system can capture value from demand management, arbitrage, grid services, and capacity markets simultaneously.

Annual Revenue Breakdown — 4.2 MWh Reference System
Demand Charge Reduction$1,392,000
58% of total
Energy Arbitrage$528,000
22% of total
Demand Response (DR)$264,000
11% of total
Frequency Regulation$216,000
9% of total
Total Annual Revenue
$2,400,000
vs. $2.2M modeled baseline · +9.1% outperformance
Capacity Retention vs. Year
Yr0Yr5Yr10Yr15Yr20
System Performance Guarantees
Round-Trip Efficiency≥ 98.4% (Year 1)
Year-10 Capacity≥ 80% retained
Response Time< 200 ms (full MW)
Availability SLA99.5% contractual
O&M Included20-year term
Performance GuaranteeRevenue shortfall credit
847 MW
Installed Capacity
31
Active Deployments
99.5%
Fleet Uptime SLA
$74M
Client Savings (2025)
22
States Permitted
4.1 yrs
Avg Simple Payback
Utility & Grid Operator Clients
Pacific Gas & Electric
Duke Energy
Eversource
Con Edison
Xcel Energy
National Grid
AES Corporation
NextEra Energy
Avangrid
Evergy
Certifications & Standards Compliance
UL 9540
Energy Storage Systems
UL 9540A
Fire Propagation
NFPA 855
Installation Standard
IEEE 1547
Interconnection
IEC 62933
Performance Testing
ISO 9001
Quality Management
Municipal 2030 Mandate

Cell systems qualify for IRA Section 48 ITC (30% base + 10% domestic content adder). Our permit packages include documentation for SGIP, CSAPR, and state-specific storage mandates.

Next Step

Your System.
Sized in Minutes.

Enter your peak demand, utility rate, and site address. The configurator returns a preliminary LCOS analysis, revenue projection, and equipment footprint — no email required.

Configurator Output — Preview
Recommended Capacity
Based on load profile
— MWh
Power Rating
Peak shaving target
— MW
Estimated LCOS
20-year levelized
— ¢/kWh
Year-1 Savings
Demand + arbitrage
— USD
Simple Payback
Unlevered
— yrs
ITC Benefit (30%)
IRA Section 48
— USD
Equipment Footprint
Containerized config
— m²

Values populate after you enter site parameters. Results are preliminary — full engineering study follows.