The building contains 3 elevators. Daiko runs durability tests 24 hours every day. Our blue container holds a 10 kW fuel cell. The power lines from the factory to the container carry electric power from the 38.5 kW solar power system from the factory through the power conditioner. Underground is the water pipe to supply tap water to the electrolyzer. There is a condenser unit for the air conditioner and there is a fan for air circulation in the container.
Inside the container: On the left is the pure hydrogen generator. In the center are eight units of hydrogen storage alloys. On the right is the 10 kW fuel cell. On the left side back is the power line coming in from the factory which supplies the primary power source. It is connected to a breaker. The power goes to the hydrogen generator where the tap water is electrolyzed and separates the hydrogen and oxygen. The tap water goes through three pure water filters before it is sent to the 20-liter tank inside. The connecting pipe carries the generated hydrogen to the eight storage Alloys evenly. The hydrogen will be supplied to the fuel cell whenever it’s necessary. Daiko’s fuel cell is 10 kW. That means that it requires only two liters of water per day to produce enough hydrogen for the system. In the case of emergency or even if the water supply is stopped for a week, the system can still keep generating power. Through electrolysis, the hydrogen is sent to the storage alloys through the pipes while the oxygen is released into the air. The dial shows the pressure that the hydrogen is moving through the pipes to the storage alloys and being stored— The system can be controlled to automatically release the required amount of hydrogen for the alloys to the fuel cell when it is necessary. Two fuel cells of 7kW each have been stacked to produce up to 14 kW of power if needed. There is a lithium-ion storage battery for peak and backup. The touch panel shows all the information you need to know: Amount of power generated by the solar panels. The ratio of the hydrogen generation. The level of stored hydrogen in the alloys. The power generation efficiency of the fuel cell Remote monitoring and control is possible.