PRIMEnergeia — Sovereign Clean Energy Intelligence

Product Suite

3 Core Divisions

Enterprise-grade intelligence engines. Each division operates independently with its own revenue model.

DIVISION 1

⚡ Grid Control & Energy

HJB-optimal dispatch across ERCOT · SEN · MIBEL — fed by 47 real data nodes

⚡

Grid Control

HJB frequency regulation across SEN 🇲🇽, ERCOT 🇺🇸, and MIBEL 🇪🇸🇵🇹. Live settlement prices from 47 nodes with 15-min resolution. DA + RT co-optimization.

HJB 3 Markets Real-Time

🔋

Battery BESS

400 MWh grid-scale storage. LFP/NMC electrochemistry, calendar + cycle aging, arbitrage dispatch, and multi-stream revenue optimization.

400 MWh LFP Degradation

🌬️

PRIM Wind

15 MW offshore wind + green H₂. IEC power curves, Jensen wake model, Weibull AEP, and PEM electrolyzer co-optimization.

15 MW Green H₂ IEC 61400

🧠

HJB Control

Hamilton-Jacobi-Bellman dispatch optimizer. Min-fuel engine scheduling with physics-constrained state estimation.

HJB Dispatch

🏭

PRIMStack

Unified plant integrator. Multi-timescale HJB dispatch orchestrating Solar+Wind+BESS+H₂ as one system.

Stack Multi-HJB

🚀

PRIMEngines

Zero-carbon propulsion. NH₃ ICE, PEM fuel cell, H₂ turbine. Brayton-cycle modeling + grid peaking.

NH₃/H₂ Zero CO₂

DIVISION 2

🏛️ Eureka Trading

VIX-regime volatility targeting · Automated daily signals · 2/20 model

📈

Eureka Sovereign

VIX-regime volatility targeting with 5-asset allocation (equities, bonds, commodities, crypto, alternatives). GBM simulation + Markowitz + Kelly criterion. Automated daily signals via Telegram.

VIX Regime 5 Assets Kelly Telegram

📈

2 / 20

2% management + 20% performance

BACKTESTED SINCE 2010

DIVISION 3

🔬 Materials, Engines & Research

Granas perovskite suite · Self-Driving Lab · Circular economy · PRIME Kernel

🔬

Granas Optics

TMM/Mie optical multilayer simulation for perovskite-silicon tandems. AM1.5G spectral optimization with HJB-driven layer tuning.

TMM Mie HJB

🤖

Self-Driving Lab

Bayesian optimization for perovskite fabrication. 6D GP + EI acquisition for autonomous experiment scheduling.

Bayesian 6D GP SDL

📐

10 Granas Engines

Blueprint + CFRP + ETFE + TOPCon + Albedo + GHB + Scale + Metrics + PRIMEcycle + SIBO. Full perovskite-silicon tandem stack.

10 Engines Tandem GW Scale

🧠

PRIME Kernel

Shared IP core. HJB solver, physics constants, and telemetry primitives used across all divisions.

HJB Shared Core

♻️

PRIMEcycle

Circular economy. 97.3% material recovery, Pb capture, BOM disassembly, and zero-waste perovskite EOL.

Circular 97.3%

Pricing

You Only Pay When We Make You Money

25% of incremental revenue generated. Backtest-validated on real settlement prices: 55.7% dispatch uplift vs naive TOU. Transparent savings methodology with independent verification. If we don't improve your returns, you pay nothing.

Pilot

$0 / 90 days

Prove the value risk-free

Starting fee: $0
90-day free trial
Single market (ERCOT, SEN, or MIBEL)
Full optimization engine access
Savings report at day 90
No commitment, no credit card

Start Pilot →

Growth

25% of uplift

For operators with <200 MW storage

Starting fee: $500K
25% of incremental revenue generated
Minimum $50K/yr commitment
All 3 markets (ERCOT, SEN, MIBEL)
Real-time dispatch dashboard
Battery degradation tracking
Monthly performance reports

Get Started →

Scale

25% of uplift

For fleets with 200 MW – 1 GW storage

Starting fee: $1.5M
25% of incremental revenue generated
Minimum $500K/yr commitment
REST API + WebSocket streaming
SCADA/EMS integration support
DA + RT co-optimization
Ancillary services bidding
Dedicated account manager

Contact Sales →

Enterprise

25% of uplift

For fleets exceeding 1 GW of storage

Starting fee: $2.5M
25% of incremental revenue generated
Minimum $2M/yr commitment
Fleet portfolio optimization
On-premise or dedicated cloud
Custom engine development
White-label option
24/7 support with SLA guarantee

Talk to Us →

SAVINGS GUARANTEE

If PRIMEngine doesn't reduce your dispatch costs by at least 5%, you pay nothing. On a 100MW plant, that's $2M–$5M/year in savings. PRIMEngine costs are typically 5–10% of savings generated — a 20–50x ROI.

ROI Calculator

Grid Dispatch ROI Calculator

Enter your fleet parameters and see how much PRIMEngine can save you annually. Based on real optimization results across ERCOT, SEN, and MIBEL markets.

⚡ Fleet Parameters

Fleet Capacity 100 MW

Current Dispatch Cost $45 /MWh

Battery Storage 400 MWh

Capacity Factor 65%

Market

📊 Projected Annual Savings

Annual Dispatch Cost

$25.6M /yr

HJB Savings (8-15%)

$2.8M /yr

PRIMEngine License

$200K /yr

Net ROI

14x return

Battery Life Extension

+2.3 years

CO₂ Avoided

0 tons/yr

Client-side estimate · Actual savings validated via 90-day pilot with your real dispatch data

Get In Touch

Let's Build the Future of Energy

Whether you need a simulation API, a custom engine, or an enterprise deployment — we're ready to help.

PRIMEnergeia S.A.S.

Sovereign clean energy intelligence. Physics-based simulation engines for grid operators, energy developers, and materials researchers worldwide.

📧

cordobaurrutia95@gmail.com

🌐

github.com/cordiego

📍

Global — 🇲🇽 🇺🇸 🇪🇸 🇵🇹

⚡

Live Dashboard

LEAD COMPUTATIONAL PHYSICIST

Diego Córdoba Urrutia

HJB / Energy Systems / Materials Science

Optimization Outcomes

Simulation Results by Market

PRIMEnergeia HJB dispatch versus naive TOU baseline — validated across 17 global ISOs.

Markets Optimized

8-60%

Dispatch Uplift Range

1,700+

GW Coverage

$231K

Validated at VZA-400

🇺🇸🇨🇦 NORTH AMERICA — 720 GW

🇲🇽 MÉXICO — 75 GW

🇪🇺 EUROPE — 640 GW

🌏 ASIA-PACIFIC — 335 GW

METHODOLOGY

All results compare PRIMEngine HJB two-pass dispatch vs. naive time-of-use (TOU) baseline for a reference 100 MW fleet with 400 MWh battery storage. DC-AC conversion losses modeled via PRIME-PowerElectronics (InverterModel η=98.5%, RectifierModel η=98.5%, system RTE=89.5%). Uplift percentages represent incremental revenue from optimal price arbitrage, forecast-aware scheduling, and ancillary service stacking. VZA-400 result ($231,243 USD) is independently auditable. See SAVINGS_METHODOLOGY.md for full details.

⚡ Run Your Own Simulation → Request Full Report

Integration-Ready

Grid Engineer Outputs

Every output from PRIMEngine is designed for direct integration into your SCADA, EMS, and BMS systems. Download sample data or connect via API.

Output Streams

Markets Supported

Protocols

CSV · JSON · API

Export Formats

OUTPUT CATALOG

⚡

Optimal Dispatch Schedule

Hourly MW charge/discharge setpoints from the HJB two-pass lookahead optimizer. Direct feed for BESS controllers and EMS load-following systems.

Fields: Timestamp · Strategy · Dispatch MW · DA/RT Price

Use Case: EMS load scheduling, BESS controllers, day-ahead commitment

CSV JSON SCADA API

🌊

Frequency Response Signals

Swing Equation solver telemetry — grid frequency, RoCoF (df/dt), and synthetic inertia injection u(t). Tuned per market: 50 Hz (ENTSO-E) or 60 Hz (ERCOT/SEN).

Fields: Frequency Hz · RoCoF · Inertia u(t) · Cumulative Savings

Use Case: Governor control, synthetic inertia inverters, UFR settings

Real-Time CSV IEC 61850

💰

Price Forecast & Arbitrage

Day-ahead and real-time LMP forecasts with pre-identified charge/discharge windows. Includes spike detection and spread ratios per hour.

Fields: DA LMP · RT LMP · Spread Ratio · Action Tag · Spike Flag

Use Case: Trading desk auto-bidding, merchant scheduling, congestion analysis

CSV JSON Trading API

🔋

Battery SOC / SOH Telemetry

Full state-of-charge trajectory, state-of-health degradation tracking, cycle count, and estimated remaining battery life with degradation-aware optimization.

Fields: SOC % · SOH · Cycle Count · Degradation Cost · Est. Life

Use Case: BMS integration, predictive maintenance, warranty tracking

CSV JSON BMS Feed

🛡️

Ancillary Services Bids

Per-interval capacity and price bids for RegUp, RegDown, and Responsive Reserve Service (RRS). Optimized for maximum ancillary revenue during hold periods.

Fields: Service · Capacity MW · Price $/MW · Revenue per Interval

Use Case: ISO ancillary market auto-bidding, reserve compliance

CSV JSON ISO Portal

📊

Savings & Revenue Reports

Capital recovery analysis — total uplift vs baseline, royalty split, MWh gap quantification, and annual projections. PDF-ready for regulatory filings and investor decks.

Fields: Net Profit · Revenue · Uplift % · Degradation · Annual Projection

Use Case: Finance systems, regulatory compliance, investor reporting

PDF JSON Markdown

🎯

Automated Market Bids

Auto-generated DAM and RTM bid submissions for energy and ancillary services. Price-quantity offer curves optimized by HJB dispatch, ready for ISO portal upload.

Fields: Bid ID · Product · Price/MW · Capacity · Interval · Status

Use Case: ISO auto-bidding, QSE offer submission, energy trading desks

DAM RTM ISO API

🔮

Load & Price Forecasts

AI-driven predictions of future electricity demand, LMP prices, solar irradiance, and wind generation. 24h–72h horizon with confidence intervals for risk-aware bidding.

Fields: Hour · Load MW · Price $/MWh · Solar MW · Wind MW · CI Band

Use Case: Day-ahead planning, renewable integration, risk management

AI/ML CSV API

⚡

Reactive Power (Q) Setpoints

MVAR commands for voltage support at the Point of Interconnection. Power factor correction, volt-VAR optimization, and grid-forming inverter control for POI compliance.

Fields: Timestamp · Q MVAR · Power Factor · Voltage kV · Mode

Use Case: Volt-VAR controllers, POI compliance, grid-forming inverters

IEC 61850 SCADA Real-Time

📉

Demand Charge Management

Behind-the-meter peak shaving signals that predict and clip demand spikes before they hit the utility meter. Reduces ratcheted demand charges by 15–40%.

Fields: Interval · Load kW · Peak Target · BESS Action · Savings

Use Case: C&I facilities, TOU optimization, utility bill reduction

BTM CSV BMS

🌐

VPP / DER Fleet Signals

Coordinated dispatch commands for geographically distributed BESS, solar, and EV charger fleets. Aggregate capacity into a single virtual power plant for ISO participation.

Fields: Site ID · Asset Type · Setpoint MW · Available MW · Status

Use Case: VPP aggregation, DER fleet management, grid flexibility markets

VPP OpenADR API

💱

Revenue Stacking Analytics

Multi-stream revenue decomposition — arbitrage, ancillary services, capacity payments, demand charge savings, and renewable credits broken out per interval.

Fields: Stream · Interval · Revenue $ · % of Total · Opportunity Cost

Use Case: Asset valuation, investor reporting, strategy optimization

Dashboard JSON PDF

🧪

Scenario Modeling

What-if simulations across tariff structures, battery configurations, market conditions, and degradation paths. Pre-deployment ROI validation and sensitivity analysis.

Fields: Scenario · Config · NPV · IRR · Payback · Risk Score

Use Case: Pre-deployment analysis, tariff comparison, financing decisions

Simulation JSON PDF

📱

Portfolio Dashboard Feed

Aggregated fleet-wide telemetry for multi-site operators. Roll-up views of SOC, revenue, dispatch compliance, and alarm status across geographically distributed assets.

Fields: Site · Fleet MW · Avg SOC · Revenue · Uptime % · Alarms

Use Case: Fleet operations, NOC monitoring, executive dashboards

WebSocket REST Dashboard

🛡️

Warranty Compliance Monitor

Ensures dispatch stays within OEM warranty bounds — cycle count limits, C-rate constraints, temperature envelopes, and SOC operating windows. Prevents warranty-voiding events.

Fields: Cycle Count · C-Rate · Temp °C · SOC Window · Warranty Status

Use Case: OEM compliance, predictive maintenance, asset protection

BMS Alerts JSON

SAMPLE OUTPUT PREVIEW

⚡ dispatch_schedule_ercot.csv

Sample Data

Showing 24-hour HJB-optimized dispatch for 100 MW fleet / 400 MWh BESS — ERCOT Houston Hub

INTEGRATION PROTOCOLS

FILE-BASED

CSV / JSON Export

Download dispatch schedules, battery telemetry, and price targets as structured files. Drop into any EMS, SCADA, or analytics system.

import pandas as pd
dispatch = pd.read_csv("dispatch_ercot.csv")
charge = dispatch[dispatch.Strategy == "CHARGE"]
# Send setpoints to BESS controller

REST API

WebSocket & REST Feed

Real-time dispatch signals via authenticated API. WebSocket streaming for sub-second frequency telemetry. OpenAPI 3.0 documented.

resp = requests.get(
"api.primenergeia.com/v1/dispatch",
params={"market": "ERCOT"})
# Feed into EMS / SCADA

INDUSTRIAL

Modbus / DNP3 / IEC 61850

Write dispatch setpoints directly to Modbus registers. DNP3 for substations. IEC 61850 GOOSE for protection-class latency.

client = ModbusTcpClient("192.168.1.100")
client.write_register(100, setpoint_mw)
client.write_register(101, mode)
# Reg 100=MW, 101=Mode

BMS

Battery Management Feed

SOC target trajectory and degradation-aware limits fed directly to the BMS. Predictive maintenance alerts when SOH drops below threshold.

bms.set_target_soc(point["SOC_pct"])
bms.update_degradation(soh=0.9984)
if soh < 0.85:
alert("MAINT_REQUIRED")

MARKET TECHNICAL SPECIFICATIONS

Parameter	SEN 🇲🇽	ERCOT 🇺🇸	MIBEL 🇪🇸🇵🇹
Frequency	60 Hz	60 Hz	50 Hz
Inertia H	5.0 s	4.5 s	6.0 s
Pricing Model	PML (Nodal)	LMP (Nodal)	OMIE Pool
Settlement	15-min	5-min RT	Hourly
THD Standard	Código de Red	IEEE 519	EN 50160
THD Limit	≤5%	≤5%	≤8%
Penalty Threshold	±0.05 Hz	±0.03 Hz	±0.04 Hz
Nodes	30	22	20

17 Global ISOs Supported: SEN · ERCOT · MIBEL · PJM · CAISO · MISO · SPP · NYISO · ISONE · IESO · AESO · EPEX (DE/FR) · Nord Pool · Elexon · NEM · JEPX

⚡ Try the ROI Calculator → Request API Access

The Brain the Grid Has Been Missing

Built on Real Physics

3 Core Divisions

You Only Pay When We Make You Money

Grid Dispatch ROI Calculator

⚡ Fleet Parameters

📊 Projected Annual Savings

Let's Build the Future of Energy

PRIMEnergeia S.A.S.

Simulation Results by Market

Grid Engineer Outputs