40' Hi-Cube Steel Dry Cargo Container

Designed in 2015 by: Global  Archiconsult

Exterior

Interior

Door

Weight

Length

Width

Height

Length

Width

Height

Width

Height

Tare

40'-0"

8'-0"

9'-6"

39'-5 45/64"

7'-8 19/32"

8'-9 15/16"

7'-8 1/8"

8'-5 49/64"

9,260 lb

12.192 m

2.438 m

2.896 m

12.032 m

2.352 m

2.69 m

2.343 m

2.585 m

4,200 kg

Container dimensions

Side view

Interior view #1

Interior view #2

Exterior view #1

Exterior view #2

Exterior view #3

Alternative design

How we calculate the solar panels requirements

Requirement:

The classroom uses an estimated energy of 4 kWh in a day.

For performance and durability of the battery, we are limited to use only 30% of the battery bank.

To meet this requirements the battery bank provide be at least: E = 4kWh * 30% = 13.33 kWh

The Battery Bank:

We use a system of 08 batteries in a series/parallel arrangement.

Each battery is 6 volts with a rating of 350 Amp hours

The overall battery bank is 8 x 6 V = 24V at 700AmpH

4 batteries are put in series. Then the 4 series set are put in parallel.

The battery bank produces energy of E = 24 * 700 = 16.8kWh

The Solar Panel:

We use 04 solar panels of 200 Watts ratings

4 * 200 = 800 Watts ( ~650 Watts of actual power )

Sunlight in a day ~= 5 hours

Energy produced by the solar panels in a day = 5 hours * 650 Watt = 3.25kWh