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Salt Water Powered Al-air Generator
1. Product Introduction
This product is an environmentally friendly generator that utilizes metal fuel cell technology, using saltwater and metal as raw materials to generate electricity through electrochemical reactions. It features high energy density, safety, environmental friendliness, and ease of use. It is suitable for scenarios such as emergency power supply, outdoor lighting, and powering electronic devices.
A metal fuel cell is a device that directly converts the chemical energy of metal into electrical energy. Its basic principle involves the redox reaction of metals (such as magnesium, aluminum, etc.) in an electrolyte to produce electric current. Compared to traditional chemical batteries, metal fuel cells offer advantages such as high energy density, environmental protection with no pollution, and safe usag
2. Model Specifications
Product Model | GS001-10W-P |
Rated Power | Rated Power: 5W, Maximum Power: 10W |
Rated Output Voltage | DC5V |
Rated Energy | 500Wh |
Generator System | Neutral Electrolyte ( Saltwater ) |
Electrolyte Circulation | None |
Electrolyte Storage Method | Stored Inside the Electrolytic Cell |
Cooling System | Natural Cooling |
Main Material of Positive Electrode | Waterproof Layer + Current Collector Layer + Oxygen Reduction Catalyst Layer |
Main Material of Negative Electrode | Multi-Composite Metal |
Dimensions | Dimensions: 228x230x154.5mm |
Dry Weight | 1980g |
Applicable Environment | Temperature: -40℃ to 60℃, Humidity: 0-85% |
Applicable Temperature | Operating Temperature: -40℃ to 60℃ |
Eco-Friendliness | Eco-friendly and pollution-free, contains no lead, cadmium, arsenic, bromine, or other harmful elements; no organic toxic substances |
Safety | Safe, non-explosive, non-flammable |
3. Instructions for Use
(1). Open the packaging box, check the shipping list, and verify the quantities. Inspect the generator casing for any cracks or damage. If any damage is found, please contact the seller. Do not use damaged batteries for discharge.
(2). Prepare the electrolyte saltwater: Mix 3%-12% saltwater (NaCl) solution, approximately 1500g, for standby use.
(3). Open the generator case cover and unscrew the liquid filling cap.
(4). Slowly pour the prepared electrolyte saltwater (from Step 2) into each individual electrolytic cell through the liquid filling port. While filling, observe the water level to ensure it submerges the negative metal plate without overflowing the liquid filling port.
(5). Let it sit for 5 minutes (for low-power startup, no need to let it sit; simply connect the load directly to use). Plug in the load, and it is ready for use.
Powering LED Lights
Powering LED lights and cell phones
4. Negative Plate Replacement
After using the generator, open the top cover and use an open-end wrench to unscrew the bolt on the terminal of the negative plate connection post.
Remove the remaining negative plate and thoroughly clean the electrolytic cell casing.
After cleaning, reassemble each electrolytic cell in order and install a new negative plate. Reconnect the series wiring according to how it was disassembled. Once completed, the generator is ready for reuse.
Important Notes:
Ensure that the terminal of each series wire connects the positive terminal of one cell to the negative terminal of the next cell to maintain a series connection for the battery.
Prevent short circuits in the battery during operation.
5. Saltwater Replacement:
When the generator's output voltage drops significantly or it fails to function properly, the saltwater needs to be replaced. Submerge the battery module in clean water, thoroughly clean it, and continue using it. Repeat the steps outlined in the usage instructions and the negative plate replacement procedure.
6. Precautions:
1. Do not short-circuit the positive and negative terminals of the generator to avoid damage.
2. Keep the generator out of reach of children to prevent accidental ingestion or other incidents.
3. After use, promptly clean the battery's electrolytic cell and negative plate.
4. Do not store generators containing saltwater for extended periods.
Aluminum-Air Battery Generator Applications
1. Emergency Power Supply & Disaster Relief
Scenarios:
Provides temporary power for rescue equipment, medical facilities, and communication base stations during grid outages caused by earthquakes, typhoons, or other natural disasters.
Advantages:
No need for frequent fuel replenishment.
Long single-use endurance (up to days or weeks), ideal for remote disaster zones.
2. Off-Grid Power Supply
Scenarios:
Remote villages, islands, research stations, or other areas without grid coverage.
Applications:
Complements intermittent renewable energy sources (e.g., solar, wind) by acting as an energy storage buffer to ensure stable power output.
3. Military & Defense
Applications:
Portable power source for field troops: Powers communication devices and reconnaissance equipment.
Long-endurance energy source for submersibles (e.g., unmanned underwater vehicles).
Advantages:
No thermal or smoke emissions, ensuring operational stealth.
4. Industrial Backup Power
Scenarios:
Critical facilities requiring uninterrupted power, such as data centers, hospitals, and factories.
Advantages:
Quieter and emission-free compared to diesel generators.
Lower maintenance costs.
Technical Limitations & Challenges
Non-rechargeable: Requires replacement of aluminum electrodes (similar to "mechanical recharging"), potentially increasing operational costs.
Electrolyte management: Regular replenishment or replacement of electrolytes reduces convenience.
Commercialization progress: Most applications remain in the demonstration phase; large-scale adoption depends on breakthroughs in material technologies (e.g., efficient aluminum recycling).
Future Potential
Aluminum recycling: Establishing a closed-loop "aluminum-to-electricity-to-aluminum" cycle through efficient recycling could drive a green energy economy.
Integration with hydrogen energy: By converting the byproduct (aluminum hydroxide) into hydrogen, it enables synergistic multi-energy applications.
Let me know if you need further refinements or additional technical details or products
Salt Water Powered Al-air Generator
1. Product Introduction
This product is an environmentally friendly generator that utilizes metal fuel cell technology, using saltwater and metal as raw materials to generate electricity through electrochemical reactions. It features high energy density, safety, environmental friendliness, and ease of use. It is suitable for scenarios such as emergency power supply, outdoor lighting, and powering electronic devices.
A metal fuel cell is a device that directly converts the chemical energy of metal into electrical energy. Its basic principle involves the redox reaction of metals (such as magnesium, aluminum, etc.) in an electrolyte to produce electric current. Compared to traditional chemical batteries, metal fuel cells offer advantages such as high energy density, environmental protection with no pollution, and safe usag
2. Model Specifications
Product Model | GS001-10W-P |
Rated Power | Rated Power: 5W, Maximum Power: 10W |
Rated Output Voltage | DC5V |
Rated Energy | 500Wh |
Generator System | Neutral Electrolyte ( Saltwater ) |
Electrolyte Circulation | None |
Electrolyte Storage Method | Stored Inside the Electrolytic Cell |
Cooling System | Natural Cooling |
Main Material of Positive Electrode | Waterproof Layer + Current Collector Layer + Oxygen Reduction Catalyst Layer |
Main Material of Negative Electrode | Multi-Composite Metal |
Dimensions | Dimensions: 228x230x154.5mm |
Dry Weight | 1980g |
Applicable Environment | Temperature: -40℃ to 60℃, Humidity: 0-85% |
Applicable Temperature | Operating Temperature: -40℃ to 60℃ |
Eco-Friendliness | Eco-friendly and pollution-free, contains no lead, cadmium, arsenic, bromine, or other harmful elements; no organic toxic substances |
Safety | Safe, non-explosive, non-flammable |
3. Instructions for Use
(1). Open the packaging box, check the shipping list, and verify the quantities. Inspect the generator casing for any cracks or damage. If any damage is found, please contact the seller. Do not use damaged batteries for discharge.
(2). Prepare the electrolyte saltwater: Mix 3%-12% saltwater (NaCl) solution, approximately 1500g, for standby use.
(3). Open the generator case cover and unscrew the liquid filling cap.
(4). Slowly pour the prepared electrolyte saltwater (from Step 2) into each individual electrolytic cell through the liquid filling port. While filling, observe the water level to ensure it submerges the negative metal plate without overflowing the liquid filling port.
(5). Let it sit for 5 minutes (for low-power startup, no need to let it sit; simply connect the load directly to use). Plug in the load, and it is ready for use.
Powering LED Lights
Powering LED lights and cell phones
4. Negative Plate Replacement
After using the generator, open the top cover and use an open-end wrench to unscrew the bolt on the terminal of the negative plate connection post.
Remove the remaining negative plate and thoroughly clean the electrolytic cell casing.
After cleaning, reassemble each electrolytic cell in order and install a new negative plate. Reconnect the series wiring according to how it was disassembled. Once completed, the generator is ready for reuse.
Important Notes:
Ensure that the terminal of each series wire connects the positive terminal of one cell to the negative terminal of the next cell to maintain a series connection for the battery.
Prevent short circuits in the battery during operation.
5. Saltwater Replacement:
When the generator's output voltage drops significantly or it fails to function properly, the saltwater needs to be replaced. Submerge the battery module in clean water, thoroughly clean it, and continue using it. Repeat the steps outlined in the usage instructions and the negative plate replacement procedure.
6. Precautions:
1. Do not short-circuit the positive and negative terminals of the generator to avoid damage.
2. Keep the generator out of reach of children to prevent accidental ingestion or other incidents.
3. After use, promptly clean the battery's electrolytic cell and negative plate.
4. Do not store generators containing saltwater for extended periods.
Aluminum-Air Battery Generator Applications
1. Emergency Power Supply & Disaster Relief
Scenarios:
Provides temporary power for rescue equipment, medical facilities, and communication base stations during grid outages caused by earthquakes, typhoons, or other natural disasters.
Advantages:
No need for frequent fuel replenishment.
Long single-use endurance (up to days or weeks), ideal for remote disaster zones.
2. Off-Grid Power Supply
Scenarios:
Remote villages, islands, research stations, or other areas without grid coverage.
Applications:
Complements intermittent renewable energy sources (e.g., solar, wind) by acting as an energy storage buffer to ensure stable power output.
3. Military & Defense
Applications:
Portable power source for field troops: Powers communication devices and reconnaissance equipment.
Long-endurance energy source for submersibles (e.g., unmanned underwater vehicles).
Advantages:
No thermal or smoke emissions, ensuring operational stealth.
4. Industrial Backup Power
Scenarios:
Critical facilities requiring uninterrupted power, such as data centers, hospitals, and factories.
Advantages:
Quieter and emission-free compared to diesel generators.
Lower maintenance costs.
Technical Limitations & Challenges
Non-rechargeable: Requires replacement of aluminum electrodes (similar to "mechanical recharging"), potentially increasing operational costs.
Electrolyte management: Regular replenishment or replacement of electrolytes reduces convenience.
Commercialization progress: Most applications remain in the demonstration phase; large-scale adoption depends on breakthroughs in material technologies (e.g., efficient aluminum recycling).
Future Potential
Aluminum recycling: Establishing a closed-loop "aluminum-to-electricity-to-aluminum" cycle through efficient recycling could drive a green energy economy.
Integration with hydrogen energy: By converting the byproduct (aluminum hydroxide) into hydrogen, it enables synergistic multi-energy applications.
Let me know if you need further refinements or additional technical details or products
