Mobile Solar Light Tower Typical Proposal - Knowledge - biglux

SYSTEM DESIGN PROPOSAL 

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Load profile 

This mobile solar light tower system is designed to power 4 x 100W LED floodlights for a period of 12 hours per night as well as 2x extractor fans. 

4 x 100W LED floodlights @ 4.8kWh 

2 x 24V at 5W/light 120m³h IP54 extractor fan + cell charging@ 1.2kWh 

Total Kwh over 12 hours = 6kWh 

During the day time, the PV array will supply adequate power to keep the system operational for 12hours plus. 

PV Generation 

The system consists of 4 x 305W solar modules with a 1.22 KWp solar panel array, mounted on top of the trailer. The panels on top of the trailer are built and designed for easy set-up. They come on a foldable solar panel frames. The solar modules will be connected in a series parallel connection that is two in series and two in parallel.  

The power generated from the PV array during an 8-10 hour day (depends on seasons) will produce on average 8kWh, which will be stored in the batteries.  To supply energy for the extractor fans and the floodlights you will need in total 6kwh over a period of 12hours.  Please refer to ANNEX 1 for more info on the proposed solar panel 

Inverter/charger 

The EasySolar combines a MPPT solar charge controller, an inverter/charger and AC distribution in one enclosure. The product is easy to install, with a minimum of wiring. The easy solar  comes with a color control panel. The color control panel collects data from all equipment and shows it on the display.The AC distribution consists of a RCD (30mA / 63A) and four AC outputs protected by two 10A and two 16A circuit breakers. An additional 16A output is controlled by the AC input: it will switch on only when AC is available. The system will installed with a BMV 702 Smart with Bluetooth built inside. This product will enable BPS technical department to communicate with the system. Please refer to ANNEX 2 for more information on the proposed inverter/charger 

Battery Bank 

The system consists of 4 battery banks of Omni-Power gel batteries, delivering in total 12kwh @ 50% D.O.D. This includes 8x240Ah, 12v Gel batteries connected in 24volt to provide back-up power. The system has been designed with 2-3 days autonomy, these means there is enough energy to power the load for 24 hours of night time without charging from solar PV or AC input. Within the system design there are parameters left for officers to charge their cellular phones. Please refer to ANNEX 3 for more information on the proposed batteries. 

FLOODLIGHTS 

4 x 100W (AC) LEDs, model FLALS100W 

► 330mm x 337mm x 95mm 

► 100W 

► Cool White illumination

 ► GY G470TG Cool white aluminium floodlight IP65 

► 220-265V AC 

The Floodlights are plugged into outlet sockets for ease of work. 

When de-assembling the system, there is extra space in the back of the trailer provided for packing away equipment and extra goods that are needed at police roadblocks. 

TRAILER 

As per specifications requested in tender document. 

► Single axel

► Identification numbers

► Wheel bearings 

► 15inch rims 

► Speed rate 80kmh 

► Spare wheel with lockable securing mechanism 

► Taillights fully protected against breakage 

► Rear reflector chevrons

Are you interested in learning more about Manual Mobile Solar Light Tower? Contact us today to secure an expert consultation!

► Please see attached brochure.

► Extractor fans 24V DC 

► Telescopic mast with extended height of 4.53m

► Axle -

► Chevron mm 

► Hinge drop side eye leaf 

► Licence disc holder

► Spring bolt 

► Brake compensator – single 

► Brake compensator – tandem 

► 7 core electrical cable 

► 7 pin male plug 

► Light kombi 

► Number plate light 

► Reflector amber 

► Reflector red triangle 

► Ball coupler 

► Jockey wheel 

► Jockey wheel clamp 

► Jockey wheel prop stand 

► Leaf spring 

► Spring mounting kit 

► Mudguard 

► Rim and tyre combo 

 Figure 1- Sample image for the proposed mobile solar light tower 

TELESCOPIC MAST 

The trailer will be fitted with the most economical pneumatically extended mast lighting system. The  FLALS100W are compact portable lighting sets which can be easily fitted to small service vehicles or trailers.  

 Figure 2- Sample image for the proposed mobile solar lighting tower with manual winch lifting

 If you have similar proposal request for light tower price and solution, please feel free to contact us: 

or call us: +86 136  

The construction industry is a significant source of CO2 emissions, with research estimating that it accounts for over a fifth of the world’s total emissions. That said, advances in technology mean that all equipment can contribute to greener operation, including lighting. Traditionally, light towers have relied on diesel engine power. However, today, several more environmentally friendly alternatives are available to suit a variety of requirements. Electric-only models can use grid power, eliminating the need for diesel. Lithium-ion battery LED options, on the other hand, can be combined with renewable energy sources to provide a 100 percent zero-emission solution. Depending on the technology used, the CO2 emissions can reduce dramatically. For example, Atlas Copco’s HiLight S2+ solar light towers enable users to cut emissions by up to six tonnes compared to traditional technologies, and it also offers zero noise emissions. The solar panels, which can be pulled out from the tower’s canopy and adjusted to align with the sun, allow autonomous operation when the solar yield is greater than demand.

The type of lights used in the tower can also make a difference. Next-generation LED floodlights are more efficient, with a lifespan of 50,000 hours, and capable of providing optimal light distribution to cover an area of up to 6,000 m2. When combining these features in the same light tower, the result is Atlas Copco HiLight H6+, a diesel light tower that allows users to reduce their energy consumption and CO2 emissions. Moreover, dimmable LED floodlights help ensure that the lights offer the appropriate level of luminosity for each situation and time of day. This technology helps reduce CO2 emissions by up to 40 percent and extends the power autonomy of the HiLight H6+ to over 300 hours.

If you are looking for more details, kindly visit Solar Surveillance Trailers.