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Traditional solar panels are rigid and often enclosed in tempered glass. Hinergy 100W 12V Flexible Monocrystalline Solar Panel will help you solve this problem. Its flexibility makes it perfect for marine use or placement on top of a van or vehicle. And this solar panel is super thin and only weighs 5.3 pounds. With 9 busbars and ultra-transparent PET on the surface to ensure a high conversion efficiency up to 22-23%, and empower a green and sustainable lifestyle.
Mounting Recommendation: Modules must be mounted using silicone structural adhesive on the backside of the panel, grommets are only to be used for non-mobile applications. For detailed installation methods, please consult a local contractor for guidance.
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Key features of Hinergy 100 Watt 12 Volt Flexible Monocrystalline Etfe Solar Panels for Rv Boats Marien Installation
High Conversion Efficiency: The Hinergy 100W flexible solar panel, crafted from high-efficiency multi-busbar monocrystalline cells, boasts an impressive efficiency rating of 23%, enabling accelerated charging capabilities.
Reliability & Durability: Our 100W flexible solar panel, featuring an IP 67 waterproof junction box, reliably captures solar energy even amidst the most torrential downpours. A resilient ETFE film shields the panel's solar cells, ensuring their functionality across a broad spectrum of environments, ranging from humid to arid conditions.
Innovative Flexibility: Employing cutting-edge thin-film, flexible substrates, and polymer-based encapsulation photovoltaic (PV) technology, this flexible solar panel effortlessly bends and conforms to any curved or irregular surface mounts. As such, it is the perfect fit for a myriad of applications, including rooftops, campers, trailers, boats, cabins, sheds, tents, and yachts.
Easy Installation: Utilize the pre-cut eyelets to either suspend the flexible solar panel gracefully with hooks or steadfastly adhere it to a surface using adhesive. Choose the installation method best suited to your preferences, thereby customizing the setup to fulfill your unique needs.
Versatile DIY Flexible Kits: Hinergy 100W flexible solar panel for camping, equipped with a compatible MC4 connector, seamlessly integrates with your existing 24v / 48v power system or portable power station. Complete with a generous 3.3ft solar cable, this panel allows ample room for mounting multiple units, thereby maximizing solar input potential.
| Module Type: | HM-FLX-100M |
| Maximum Power at STC (Pmax) | 100W |
| Open Circuit Voltage (Voc) | 24.5V |
| Short Circuit Current (Isc) | 5.16A |
| Voltage at Maximum power (Vmp) | 20.7V |
| Current at Maximum Power (Imp) | 4.84A |
| Module Efficiency (%) | 15.70% |
| Module Dimensions(Mm) | 1093*582*2.5MM |
| Module Weight(Kgs) | 5.3 IBS (2.40 KGS) |
*Specifications included in this datasheet are subject to change without notice. HINERGY reserves the right of final interpretation
A 100-watt flexible solar panel is well-suited for a variety of applications where portability, lightweight construction, and adaptability to unconventional surfaces are desired. Some specific uses include:
Recreational Vehicles (RVs): RV owners can utilize flexible solar panels to supplement or replace their onboard power systems, charging batteries for appliances, lighting, and other electronics while on the road or parked at campsites. The flexible solar panel kit for rv can be easily installed on the curved roof or sides of the RV without adding significant weight or compromising aerodynamics.
Boats and Marine Applications: In the marine environment, best semi flexible solar panels can be attached to the deck, cabin roof, or bimini tops of sailboats, yachts, or other watercraft. They provide a reliable source of power for navigation equipment, communication devices, lighting, and other electrical systems while reducing reliance on noisy, fuel-consuming generators.
Camping and Outdoor Adventures: Backpackers, hikers, and campers can benefit from portable 100-watt most powerful flexible solar panels to charge smartphones, GPS devices, portable power banks, and camping lanterns. These panels can be rolled up or folded for easy packing and set up quickly at a campsite, attached to tents, trees, or other available structures.
Remote Cabins and Off-Grid Homes: For off-grid living or remote cabins, custom shape flexible solar panels can be integrated into a larger solar energy system, providing power for lighting, small appliances, and essential electronics. Their ability to conform to irregular rooflines or mount on non-traditional surfaces, such as wooden shingles or metal roofs, makes them particularly useful in these settings.
Emergency Preparedness and Disaster Relief: In situations where grid power is disrupted, flexible solar panels can serve as a vital power source for charging communication devices, radios, flashlights, and other critical equipment. They can be rapidly deployed in emergency shelters, makeshift clinics, or temporary command centers.
Agriculture and Remote Monitoring: Farmers and ranchers can use flexible solar panels battery charger to power irrigation pumps, weather stations, soil moisture sensors, and other agricultural equipment in remote locations. Similarly, researchers and conservationists can employ them to supply energy for wildlife monitoring cameras, data loggers, and other remote sensing devices.
Small-Scale Industrial and Commercial Applications: Businesses with mobile workstations, kiosks, or pop-up shops can utilize flexible solar panels efficiency to keep their operations powered during outdoor events, trade shows, or construction sites. They can also be used to provide backup power for signage, lighting, or security systems in areas with unreliable grid electricity.
In summary, a 100-watt flexible solar panel is versatile and adaptable, finding applications in various sectors, including recreational activities, off-grid living, emergency preparedness, agriculture, and industrial/commercial settings where lightweight, portable, and flexible solar power solutions are needed.
1.What is flexible solar panel?
A flexible solar panel is a type of photovoltaic panel designed to be bendable and lightweight, offering greater versatility in installation compared to traditional rigid solar panels. These panels typically use thin-film or monocrystalline solar cells embedded in a flexible polymer substrate, allowing them to conform to curved surfaces or irregular shapes. Flexible solar panels are often used in applications where weight, space, or aesthetics are important considerations, such as on boats, RVs, curved roofs, or portable solar chargers.
2. How to attach flexible solar panel to van roof?
Attaching/Fitting a flexible solar panel system for campervan roof involves several steps to ensure a secure, weather-resistant, and well-functioning installation. Here's a step-by-step guide:
Step 1: Pre-installation Preparation
a. Clean the roof surface: Thoroughly clean the van roof where the flexible solar modules will be installed, removing any dirt, debris, or residue that could compromise adhesion. Use a mild detergent and a soft-bristled brush or sponge, then rinse thoroughly and let the surface dry completely.
b. Identify mounting location: Determine the optimal position for the solar panel based on factors such as roof accessibility, shade avoidance, and cable routing convenience. Ensure there are no obstructions, such as roof racks or antennas, that could interfere with the panel or its wiring.
c. Measure and mark: Measure the dimensions of the solar panel and use a chalk line, tape measure, or template to mark the exact placement on the roof. Double-check your measurements before installing flexible solar panels on rv roof.
Step 2: Install Mounting Adhesive or Velcro Strips
a. Check the manufacturer's recommendations: Consult the solar panel manufacturer's instructions for the recommended mounting method, which may involve using a specific type of adhesive or Velcro strips.
b. Apply adhesive or Velcro: If using adhesive, carefully apply it along the edges and across the back of the solar panel according to the manufacturer's guidelines. For Velcro strips, attach one side to the solar panel and the corresponding side to the marked areas on the van roof. Be sure to follow the manufacturer's instructions regarding curing times for adhesives or bonding processes for Velcro.
Step 3: Install the Solar Panel
a. Position the panel: Carefully lift the solar panel onto the roof, aligning it with the marked placement. Have a helper assist you if necessary, as the panel may be large or unwieldy.
b. Press and secure: Firmly press the flexible panel onto the adhesive or Velcro strips, ensuring full contact and adherence. If using adhesive, follow the recommended pressure and curing time specified by the manufacturer. For Velcro, simply press the two mating surfaces together until they click into place.
Step 4: Wiring and Electrical Connections
a. Drill entry holes: If needed, drill small holes through the roof for the solar panel cables to pass through, ensuring they are properly sealed with silicone or a specialized roof penetration kit to prevent water intrusion.
b. Connect to charge controller: Route the solar panel cables into the van and connect them to a solar charge controller, which regulates the voltage and current flowing from the panel to the battery bank. Follow the charge controller manufacturer's instructions for proper wiring.
c. Connect to battery bank: Connect the charge controller to your van's battery bank, ensuring correct polarity and following any additional instructions provided by the battery or charge controller manufacturer.
d. Grounding: Properly ground the solar panel and charge controller according to local electrical codes and the manufacturers' recommendations to ensure safety.
Step 5: Post-installation Checks and Maintenance
a. Inspect the installation: Carefully inspect the bendy solar panel and mounting area for any signs of damage, misalignment, or inadequate adhesion. Perform a visual check for any gaps or potential water ingress points.
b. Test the system: Turn on the solar charge controller and monitor the system's performance using a multimeter or the controller's display. Ensure the panel is generating power, and the charge controller is functioning correctly.
c. Regular maintenance: Periodically inspect the solar panel and mounting adhesive or Velcro for any signs of wear, damage, or degradation. Clean the panel's surface as needed to maintain optimal energy output.
By following these steps, you can securely attach a flexible solar panel to your van roof, providing a reliable source of renewable energy for your mobile living or travel needs.
3. Flexible solar panel what to do with adhesive backing??
When working with a flexible solar panel featuring an adhesive backing, follow these steps:
Clean and prepare the mounting surface.
Remove the protective release liner from the adhesive.
Align and place the panel, applying firm pressure.
Allow the adhesive to cure according to manufacturer's instructions.
Connect the panel to the solar energy system.
Regularly inspect the adhesive bond and maintain the panel.
Refer to the manufacturer's instructions for specific guidance on adhesive usage and installation procedures.
4. How should I connect solar panels in my electrical circuit (series vs parallel)?
Semi flexible solar panels for campervans can be connected in series or in parallel to meet your electrical circuit size and power demand. Connecting semi flex solar panels in series will have the effect of adding up their operating voltage output, while system current output will be the same as that for one panel. While, connecting flexible solar panels for campervans in parallel will have a different effect; individual panels operating current output will add up to be the system output current, while system output voltage will be the same as the output voltage of one solar panel. To meet the optimum power output and system rating for your power system, you can use both parallel and series connections.
5. How many solar panels do I need ?
The best way to gauge how many solar panels you need, is to understand and define the power load needed from this system. Power is measured in Watts, and capacity is commonly measured in Watt-hours (multiplying power output in watts by the required number of hours of operation multiplied by a safety factor of 1.5-2). Therefore, it is wise to size your battery bank first based on the minimum required capacity, and accordingly decide how many panels or how much power input is needed.
