Red-hot air
By generating high-temperature, high-pressure red-hot air through gravitational acceleration and a pulley system, the method addresses inefficiencies in compressed air use and alternative fuel limitations, achieving efficient energy generation and diverse applications.
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- XINCHENG TAIYAN
- Filing Date
- 2024-12-25
- Publication Date
- 2026-07-07
Smart Images

Figure 2026113353000001_ABST
Abstract
Description
Technical Field
[0001] This invention relates to a method for generating energy resources using hot air.
Background Art
[0002] Conventionally, compressed air has been used only for power, cooling, compressors, etc., consuming energy and not generating new energy resources.
Prior Art Documents
[0003] The heat generation phenomenon of compressed air is well-known. This invention is a method of diverse development of derivative technologies.
Summary of the Invention
Problems to be Solved by the Invention
[0004] The compression of air by electric power has a weak compression force and a small heat storage rate. Firewood has slow combustion, and charcoal has low productivity. Warm water is costly to cook with as fuel. The cooling heat source has low efficiency by electric power injection. Wind power generation lacks constancy. Hydrocarbons consume resources in the method of separating natural gas. The work of using the hot air generated by compressing conventional air is single-minded and only consumes energy. Means for Solving the Problems
[0005] Means of the Invention Compress air with gravitational acceleration falling energy. Lift a weight with a pulley and let it fall naturally, and use the force of gravitational acceleration falling energy for the weight to strike a piston to press the air in the cylinder to generate high-temperature and high-pressure hot air in a pressure-resistant container. Increase the power factor of the pulley to move the pulley with a small force, make the weight heavier, and increase the hanging height to increase the output. Use a check valve to confine the high-temperature and high-pressure hot air and compress the hot air to the limit strength of the pressure-resistant container. The pressure-resistant container reaches a saturated state in a short time, and the heat storage effect persists for a long time, and less power is required to move the piston.
[0006] Method of the Invention Energy resources are generated using pressure vessels and high-temperature, high-pressure red-hot air. Diversity in generation methods, supply methods, creation methods, and power generation methods is sought for the following items.
[0007] Charcoal production By placing vegetation and wood in a pressure-resistant container and exposing it to high-temperature, high-pressure, red-hot air, rapid-heating firewood and charcoal are produced. Because it burns in dilute oxygen, the wood does not turn to ash regardless of its type, and non-combustible materials from the vegetation and wood are removed, resulting in high-quality firewood and charcoal.
[0008] power supply Steam power generation is performed by sending high-temperature, high-pressure red-hot air through a circular pipe for a blower into a boiler inside a pressure vessel.
[0009] hot water supply Water is heated by passing a circular pipe for water use through a pressure-resistant vessel and exposing it to high-temperature, high-pressure, red-hot air, and then used for bathing, indoor heating, heating greenhouses for agricultural products, etc.
[0010] cooling heat source A cooling tube with a nozzle at its tip is attached to a pressure vessel, and high-temperature, high-pressure, red-hot air is injected from the tip of the nozzle to be used as a heat source for cooling air conditioners and the like.
[0011] Wind power A circular tube for a wind turbine is attached to a pressure vessel, and multiple impellers are arranged in a vertical line inside the wind turbine tube. High-temperature, high-pressure red-hot air is injected to rotate the generators through the impellers, thus performing multi-unit power generation.
[0012] Sludge treatment Sludge, organic waste, etc., are placed in a pressure vessel and exposed to high-temperature, high-pressure red-hot air to separate hydrocarbons and generate combustible gases such as methane and ethane. At the same time, the burnt residue is used as fertilizer. Effects of the invention
[0013] Because it uses air as fuel and gravity energy as its power source, it can generate output revenue that exceeds its input costs. [Brief explanation of the drawing]
[0014] [Figure 1]Front view (pressure vessel) [Best Mode for Carrying Out the Invention]
[0015] It is possible to implement one item or multiple items simultaneously. [Industrial applicability]
[0016] In the case of firewood and charcoal, due to the low oxygen level, there is no need to select suitable materials, and a wide range of materials can be used for production. In the case of power generation, it is possible to operate one or more types of generators simultaneously.
Claims
1. The following processing is applied to the sealed pressure vessel:
1. An opening is provided at the top of the pressure vessel, and a cylinder is mounted upwards in the opening.
2. A spring-loaded piston is placed inside the cylinder, a shock-absorbing material is placed on top of the piston, and a check valve is provided at the bottom of the cylinder.
3. Install a check valve between the pressure vessel and the cylinder.
4. A pulley is placed in the hollow space directly above the cylinder, and a weight with a wire attached is mounted on the pulley.
5. Provide an opening and closing door on the surface of the pressure vessel. In the pressure vessel constructed as described above, air is compressed using the energy of gravity as the power source. A weight is suspended in mid-air by a pulley and allowed to fall naturally. The energy of gravity causes the weight to strike a piston, compressing the air in the cylinder and sending it into the pressure vessel. When the weight is then lifted, the piston returns to its original position, the check valve in the pressure vessel closes, trapping the air inside, while the check valve in the cylinder opens, allowing new air to enter the cylinder. The repeated striking of the weight and the reciprocating motion of the piston generate high-temperature, high-pressure, red-hot air inside the pressure vessel. The following claims describe an invention for a method of generating new energy resources using a pressure vessel and high-temperature, high-pressure red-hot air as means: Note "A method of producing firewood and charcoal by placing plants and wood in a pressure-resistant container and exposing them to high-temperature, high-pressure red-hot air."
2. A method for generating steam power by using the pressure vessel and high-temperature, high-pressure red-hot air described in claim 1 as means, and by circulating the high-temperature, high-pressure red-hot air through a blower pipe into the pressure vessel and supplying it to a boiler.
3. A method for supplying hot water for baths, indoor heating, greenhouse heating, etc., by using the pressure vessel and high-temperature, high-pressure red-hot air described in claim 1 as means, passing a water pipe through the pressure vessel and exposing the water pipe to the high-temperature, high-pressure red-hot air, thereby heating the water in the water pipe.
4. A method for generating power in a multi-unit configuration using the pressure vessel and high-temperature, high-pressure red-hot air described in claim 1 as means, wherein a circular tube for a wind turbine is attached to the pressure vessel, a plurality of impellers are arranged in a row inside the circular tube for the wind turbine, high-temperature, high-pressure red-hot air is injected from the circular tube for the wind turbine to rotate the impellers, and a plurality of generators attached to the shafts of the impellers outside the circular tube for multi-unit power generation,
5. A method for using the pressure vessel and high-temperature, high-pressure red-hot air described in claim 1 as means, wherein a cooling tube with a nozzle at its tip is attached to the pressure vessel, and high-temperature, high-pressure red-hot air is injected from the tip of the nozzle to be used as a cooling heat source for an air conditioner.
6. A method for producing combustible gases such as methane and ethane by separating hydrocarbons by placing sludge, organic waste, etc., inside a pressure vessel and exposing it to high-temperature, high-pressure red-hot air, as described in claim 1, and by using the high-temperature, high-pressure red-hot air as means, and a method for using the burnt residue as fertilizer,