Product Introduction
Kingway energy,with a strong focus on safety, reliability, and intelligent technology. With a focus on energy efficiency, versatility, and durability, our solar light tower is the ideal choice for businesses and organizations seeking an eco-friendly and cost-effective lighting solution in the solar energy industry.No matter how unique or specialized of your project , we are well-equipped to handle it with precision and efficiency. Trust Kingway for all your energy needs!
TECHNICAL SPECIFICATIONS
Model |
KWST-600L |
Place of Origin: |
China |
Brand |
Kingway |
Solar Panel |
3 × 435W |
Panel Lifting |
30°~38°,Electric Lifting |
GEL/LFP Battery |
6 × 200Ah DC12V |
Battery Capacity |
14400Wh 80% DoC |
System Voltage |
DC24V |
LED Lamp |
4 × 150W,90000Lms |
Rotation |
350° Electric |
Tilt |
90° Electric |
Controller |
60A MPPT |
Mast & Height |
5 Sections 9M |
Mast Lifting |
Electric Winch |
Trailer Standard |
US / AU / EU |
Hitch |
2'' Ball / 3'' Ring |
Brake |
Mechanical |
Axle |
Single |
Tire |
15 inch |
Outriggers |
4 × |
Forklift Holes |
2 × |
Wokring Temp |
-35℃~60℃ |
Charging Time |
9.3 hours |
Running Time |
19.2 hours |
Dimension(mm) |
3550*1650*2800 |
Weight |
1400kg |
QTY in 20' / 40' |
3 units / 7 units |
Inverter |
Optional |
AC Charge |
Optional |
backup generator |
Optional |
Wind turbine |
Optional |
Certification: |
CE/ISO9001 |
MOQ: |
1 |
Packaging Details: |
Plywood/ Wooden case/ EPE foam |
Delivery Time: |
About 45days |
Supply Ability: |
300 units/Month |
Product Features
☮ Solar-Powered Efficiency: By utilizing solar energy, the beacon reduces reliance on traditional power sources, offering cost-effective and sustainable illumination.
☮ 360-Degree Rotating Design: The beacon’s ability to rotate 360 degrees allows for flexible and customizable lighting coverage, catering to diverse lighting needs.
☮ Versatility and Portability: Its portable design makes it easy to transport and deploy in various settings, providing adaptable lighting solutions for different environments.
☮ Eco-Friendly Operation: The use of solar power promotes environmental sustainability, reducing carbon footprint and energy costs while providing clean and renewable energy.
Product Applications
Construction sites,Parking lots and outdoor spaces,Roadworks and maintenance,Mining and remote locations,Temporary Security Needs.
How to accomplish
There are mainly the following methods for energy storage in solar lighting lighthouses: energy storage, hydrogen storage technology and heat storage technology. Different energy storage methods have their own advantages and applicable environments, which are introduced in detail below.
Batteries are currently a widely used energy storage technology. Solar panels convert solar energy into electrical energy, which is then sent through wires to batteries for storage. The battery can store a large amount of electrical energy and can be released for lighting when needed. Therefore, energy storage can ensure that the lighting tower can work normally at night or on cloudy days. This energy storage method is simple to install, has low cost, and is suitable for assessment towers.
Hydrogen storage technology is a new energy storage technology developed in recent years, which converts solar energy into hydrogen energy. Solar photovoltaic panels convert solar energy into electricity and then split water into hydrogen and oxygen through electrolysis of water. The hydrogen is stored and, when needed, converted into electricity via a fuel cell to illuminate the lighthouse. Hydrogen storage technology has the characteristics of renewable nature and high energy density, which can provide long-term power supply. However, the investment and cost of hydrogen storage technology are high and the scope of application is narrow.
Thermal storage technology uses solar energy to convert light energy into heat energy and stores it for use in lighting lighthouses. This technology mainly includes two methods: hot heat storage and cold heat storage. Thermal storage converts solar energy into thermal energy through solar photovoltaic panels, and then stores the thermal energy. When it is night or cloudy, the thermal energy can be converted into electrical energy through a heat exchanger for lighting the lighthouse. Cold and heat storage uses solar energy to convert light energy into cold energy, and stores the cold energy for use in lighting lighthouses. Thermal storage technology has the advantages of high energy storage efficiency and environmental protection, but it has high requirements for thermal storage materials and systems, and the cost is relatively high.
In addition to the above three main energy storage methods, solar lighting lighthouses can also use other auxiliary energy storage technologies to increase energy storage capacity. For example, supercapacitors can be used as auxiliary energy storage devices to provide additional energy and smooth power output during conversion.
In general, the energy storage system of a solar lighting lighthouse is an important component to ensure its continued operation. Battery energy storage is currently the most widely used and lowest-cost method, and is suitable for most scenarios that require lighting at night or on cloudy days. Hydrogen storage technology and heat storage technology are new energy storage technologies with great potential and can be further promoted and applied in future development. At the same time, the introduction of auxiliary energy storage technology can further increase energy storage capacity and ensure that solar lighting lighthouses can continue to work stably.