Simulation EN

🔎Simulation – What This Tool Does

This simulation helps illustrate how solar power, battery storage and household behavior affect a home’s energy flows. Open Simulation Quick Guide (EN) → It is not a site-specific engineering forecast, but an educational model designed to let you: compare different PV system sizes explore the impact of batteries see how much energy is imported from the grid understand when surplus production occurs test different locations and seasons. The tool visualizes what is often hidden in spreadsheets: how electricity actually moves between the home, solar panels, battery storage and the grid.

Simulation Settings









Energy storage

House A: No battery storage configured


Additional Loads



EV Charging Settings






House A – Consumption

House B – Consumption

House A – Weekly Consumption (7 days)

House B – Weekly Consumption (7 days)

House A — Conventional Solar

 
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Daily consumption
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7-day total
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30-day total
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Grid import
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Solar export
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Self use
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Grid import
–
–
Solar export
–
–
Self use
–

House B — SmartAlgorithm

 
–
Daily consumption
–
7-day total
–
30-day total
–
Grid import
–
Solar export
–
Self use
–
Grid import
–
–
Solar export
–
–
Self use
–

 

Consumption Hourly


House A (basic)

Hour Power (kW)

House B (compare)

Hour Power (kW)


🏠 How to Compare House A vs House B

This simulation helps illustrate how solar power, battery storage and household behavior affect a home’s energy flows.

It is not a site-specific engineering forecast, but an educational model designed to let you:

Compare different PV system sizes

Explore the impact of batteries

See how much energy is imported from the grid

Understand when surplus production occurs

Test different locations and seasons.

The tool visualizes what is often hidden in spreadsheets:
how electricity actually moves between the home, solar panels, battery storage and the grid.

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