Distributed Smart Energy Infrastructure

Assets → Flow Network → Intelligence → Data → Financial/Regulatory

Eine Multi-Node-DER-Architektur, die Solar, Batterien, EV-Charging, Smart Buildings und industrielle Microgrids in ein Grid-Interactive-Network verbindet. Sie kombiniert Echtzeit-Dispatch, AI-Forecasting, Event-Driven-Control und Tariff/Subsidy-Optimization unter einem Multi-Tenant-Compliance-Model.

Visualisiert

•Distributed Asset Layer (PV, BESS, EVSE, Buildings, Microgrids)
•Grid Interaction und Internal Energy Flow Types
•AI Optimization (Load/Price/Carbon) und Demand Response Control
•Streaming + Event Bus + API Gateway mit Tenant Isolation
•Tariff, Subsidy, Grid Fees und Carbon Accounting Integration

Verwendet für

•Design von Grid-Interactive-DER-Networks
•Validierung von Multi-Tenant-Compliance-Models
•Optimierung von Real-Time-Dispatch und AI-Forecasting

Distributed Smart Energy Infrastructure

Multi-Node Network Architecture / Real-Time Energy Intelligence

Total Distributed Capacity

12.4 MW

Total Storage

1.2 MWh

Connected Nodes

Grid Interaction

Active

Network Topology

Distributed

Regions

Layer 1 – Distributed Assets

Rooftop Solar

• 8 nodes

• 120 kWp total

• Grid-tied

• Inverter layer present

Battery Storage

• 5 nodes

• 1.2 MWh total capacity

• Li-Ion / LFP

• BMS integrated

EV Charging

• 6 clusters

• 180 kW fast charging

• OCPP protocol

• Smart load management

Smart Buildings

• 4 buildings

• Integrated BMS

• Load forecasting enabled

• Demand response ready

Industrial Microgrid

• 3 sites

• Islanding capable

• Peak shaving active

• Backup generation

Layer 2 – Energy Flow Network

Grid Connection

• Frequency sync

• Voltage monitoring

• Feed-in regulation

Microgrid Controller

• Load balancing

• Island mode

• Real-time dispatch

Distributed Assets

• 26 total nodes

• Multi-cluster

• Edge-enabled

Energy Flow Types

→ Grid Import

← Grid Export

⟲ Internal Load Redistribution

⇅ Storage Charge/Discharge

⚡ EV Priority Dispatch

◈ Network Topology: Distributed

Layer 3 – Intelligence Layer

AI Optimization Engine

├── Load Forecasting (ML-based)

├── Price Signal Analysis

├── Peak Prediction

└── Carbon Optimization Logic

Demand Response Controller

├── Automated dispatch

├── Curtailment logic

└── Flexibility market integration

Energy Trading Logic

├── PPA model

├── Spot market

└── Feed-in tariff logic

Performance Metrics

Decision latency< 250ms

Forecast horizon24–72h

Layer 4 – Data Layer

Real-time Data Stream

• MQTT / Kafka

• 5s refresh cycle

• Edge-to-cloud sync

Event Bus

• Event-driven architecture

• Failure logging

• System alerts

API Gateway

• OAuth 2.0

• Rate limiting

• Multi-tenant isolation

Multi-tenant Data Model

• Asset-based segmentation

• Region-based compliance

• Role-based access

Layer 5 – Financial & Regulatory

Tariff Model Engine

• Time-of-use pricing

• Dynamic rate structure

• Peak/off-peak logic

Subsidy Logic

• Feed-in tariff calculation

• Government incentive tracking

• Regional subsidy mapping

Incentive Mapping

• Demand response programs

• Capacity market participation

• Green certificate trading

Grid Fee Structure

• Network usage charges

• Connection fees

• Balancing costs

ESG Reporting Module

• Carbon accounting

• Sustainability metrics

• Regulatory compliance

Carbon Accounting

• CO₂ avoidance tracking

• Emission factor database

• Carbon credit generation

System Architecture

Distributed multi-node network with edge-controller topology

Control Mode

Event-driven with real-time optimization and autonomous island capability

Data Architecture

Multi-tenant isolation with role-based access and regional compliance

Financial Integration

Tariff optimization, subsidy tracking, and carbon accounting enabled

Distributed Smart Energy Infrastructure

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Verwendet für

Verwandte Systemansichten

Distributed Smart Energy Infrastructure

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