Company: AIRJW
Filing Date: 2025-04-28
Form Type: S-1/A
Source: 0001213900-25-036124
Chunk: 98

Company: AirJoule Technologies Corp.
Filing Date: 2025-04-28
Form: S-1/A
Chunk 98
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 add heat or cooling to the process. By balancing the heat transfer between chambers, the system works to minimize energy consumption and allows the AirJoule system to continuously operate at ambient temperature with less energy required than existing water harvesting or dehumidification systems, assuming air temperature of 80°F and 60% relative humidity. Additionally, AirJoule can utilize low -gradewaste heat, which is available at nearly all industrial operations globally, including data centers, to enhance its own internally -generatedheat to reduce the amount of energy required and significantly improve efficiency. Assuming air temperature of 80°F and 60% relative humidity, the US Department of Energy estimates that as much as 50% of industrial energy input is lost as waste heat and a significant portion of this is low -gradeheat, which when integrated into an AirJoule system, can further reduce the required energy. We anticipate that our pre -productionunits will be able to deliver over 1,000 liters of water per day at or below 130 Wh/L when utilizing low -gradewaste heat. AirJoule operates as follows:

| Ambient air is drawn through MOF-coated contactors, and water vapor is captured through adsorption;                                                                                                                                                                                                                            |
| Once MOF is full of water vapor, chamber doors close and vacuum is applied;                                                                                                                                                                                                                                                    |
| The heat of adsorption is transferred to the closed chamber to assist with desorption;                                                                                                                                                                                                                                         |
| Under vacuum, water vapor is released from the MOF through desorption and is drawn into the vacuum swing compressor, which slightly compresses the water vapor so that it condenses to liquid water inside the vacuum condenser. In applications where waste heat is utilized, there is no need for a vacuum swing compressor; |
| Water vapor capture and release cycles occur simultaneously in separate chambers; internal heat is recovered which enables superior energetics.                                                                                                                                                                                |

56 Industry Background Water Harvesting According to the World Resources Institute, 25% of the global population lives in countries facing extremely high water stress, with as many as four billion people already exposed to water stress conditions for at least one month per year. As a result of the rising degradation and disappearance of natural ecosystems that provide clean water and alleviate floods and other risks, the World Resources Institute estimates that demand for water will increase by up to 30% by 2050. The map below reflects the projected ratio of water withdrawals to water supply by country in 2050. The Earth’s atmosphere continuously cycles and redistributes