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Step 1
Location & Roof
Step 2
Grid & electricity tariff
Step 3
Power consumption
Step 4
Components
Step 5
Review
Step 6
Results

Please select and save each side’s info separately

Is the number of panels known?

Yes

Panel's Pitch (°)

Number of panels

A (m)

B (m)

C (m)

D (m)

E (m)

F (m)

G (m)

H (m)

W (m)

Have an unusable area in this side

Height (m)

Width (m)

DL (m)

DB (m)

latitude

longitude

Search an address (or a postcode)

Building orientation (°) You can use the Map to set the orientation

select your currency unit

Select the connection type:

Select type of the utility grid:

Electricity tariff type:

Type of variable price

Desirable reliability(%):

Purchase price of excess energy (per kWh):

Number of outages in one month:

Average duration of each outage (hours):

Control method:

Start time (From 0 to 23)

End time (from 0 to 23)

Maximum power consumption(W)

Desirable reliability(%)

electricity tariff (per kWh)

Monthly consumption from (kWh)

Monthly consumption to (kWh)

Electricity tariff (per kWh)

Start time (From 0 to 23)

End time (From 0 to 23)

Electricity tariff (per kWh)

Select the type of solar system:

PV & Battery

PV information

Brands

PV Brand

Model No

Length (CM)

Width (CM)

Power (W)

Life Time (year)

first year nominal power (%)

degradation rate (%)

price of each panel

power loss (%)

Battery information

Battery Brand

Model No

maximum capacity (Wh)

max power charge/disharge (W)

depth of discharge(%)

Cycle Life

warranty or life time (year)

Round trip efficiency(%)

price of each unit

Battery charge controller

price per (kw)

Life time (Years)

Invertor information

price per (KW)

Life time (Year)

Interest rate (%)

Annual O & M cost (% of the PV panels' cost)

Step 1 information:

sides :

Total Orientation : ---

side1

side2

side3

side4

step2 information

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---

step3 information

---

step 4 information ---

Dear Customer,

Thank you so much for using our sizing tool. In the following page you can find the results in two scenarios (only applicable for grid connected systems) which provide you with more flexibility to choose the final size of components:

Scenario 1

Optimal size of PV panels and batteries based on the total cost

Scenario 2

Optimal size of PV panels and batteries based on the total cost and capital cost

We hope to hear your valuable comments and suggestions via the email below, and it would be great if you could share your opinion with other customers here.

please contact us if you need a customised tool for your company or for any collaboration opportunities.

Best regards,

Energimise Team

Info@energimise.com

Project Summary:

Connection Type

PV panel Model

Control

Battery Model

Slope (°)

Project Lifetime (year)

Orientation (°)

Intrest rate (%)

Optimization Results:

Without Solar system

Scenario 1

Scenario 2

Optimal Number of PV Panels

Optimal number of battery units

Optimal Size of PV panels

Optimal size of Batteries

Energy Import from the grid (kWh per year)

Energy export to the grid (kWh per year)

Initial Cost

Replacement Cost (During the lifetime)

Operation and maintenance cost (During the lifetime)

Electricity bill (During the lifetime)

Total Cost (During the lifetime)

ELF (Reliability Index)*

Carbon Emission (Kg per year)**

All costs listed above are present values

* i.e., ELF=90% represents only 90% of household energy can be supplied with the suggested energy system.

** The average carbon intensity of electricity generated is considered of 475 gCO2/kWh

Personal Information

PV information

Battery information

Battery charge controller

Invertor information