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Harvesting Water From Air Using Refrigeration Process
Abstract: In this invention explores an innovative refrigeration-based method to extract water from the atmosphere, providing a sustainable solution for water scarcity, particularly in dry or arid regions. The core concept involves cooling air below its dew point, causing the water vapor in the air to condense into liquid water. This condensed water can then be captured and stored, offering a reliable source of water where freshwater resources are limited or unavailable. By mimicking the natural process of condensation, this technique can help alleviate water scarcity in areas that lack traditional water infrastructure.The system works by passing air over evaporator coils in a refrigeration cycle, cooling the air until the moisture in it condenses into water droplets on the coils. These droplets are then collected, filtered, and stored for use. This method requires no initial water source and can extract moisture from the air, which is continuously available even in arid climates. As a result, it provides a viable solution for areas where conventional water sources are scarce or inaccessible. Designed to be energy-efficient and environmentally friendly, the system offers a promising alternative to traditional water collection methods. To further enhance its sustainability, integrating renewable energy sources such as solar or wind power could power the refrigeration process, reducing reliance on conventional energy grids. Additionally, improvements in water filtration and purification technologies could ensure that the collected water is safe for consumption without the need for extensive treatment.
Notices, Deadlines & Correspondence
Patent Information
Applicants
K S Rangasamy College of Technology
Inventors
1. Dr. C. Vijayakumar
2. Mr. T. Gokulraj
3. Mr . V. Jaisabari
4. Mr. M. Vignesh
5. Dr. A. Murugesan
6. Dr. T. Bharani Dharan
7. Dr. M. Baskaran
8. Mrs. V. Indhumathi
Specification
Description:The system begins with air intake, where ambient air is drawn into the system
using a fan or blower. The air passes through a filtering unit to remove dust, pollutants,
and particulates, ensuring that only clean air enters the refrigeration system. The filtered air then moves to a cooling chamber where it encounters a refrigeration coil.
The refrigeration coil, cooled by a refrigeration cycle (typically using a compressor,
condenser, and evaporator), lowers the air temperature below its dew point, causing
the water vapor in the air to condense into liquid droplets.
These droplets accumulate on the surface of the refrigeration coil and are funneled
into a collection tray. From there, the water is directed to a purification unit to remove
any remaining impurities and make it safe for consumption. The purified water is then
stored in a storage tank for later use. Meanwhile, the dehumidified air is expelled back
into the atmosphere or reused in the process to improve efficiency. The system often incorporates sensors and control mechanisms to monitor humidity levels, optimize
energy usage, and regulate water production.
This technology is particularly useful in areas with high humidity and limited access
to freshwater resources, as it provides an alternative, sustainable water source. , Claims:We Claim:
1. A harvesting water from air using refrigeration process comprise;
a compressor;
5 a condenser;
an expansion Valve;
a blower;
a filter;
an evaporator; a freezer Box;
a tube;
a tank;
2. The Compressor as claimed in claim 1, where it is a device that increases the pressure of refrigerant gas, enabling it to circulate through the system for cooling.
3. The Condenser as claimed in claim 1, where it is a heat exchanger that dissipates heat
from the refrigerant gas, turning it into a liquid as it cools.
4. The Expansion Valve as claimed in claim 1, where it is a device that regulates the
flow of refrigerant into the evaporator, causing it to expand and cool. 5. The Blower as claimed in claim 1, where it is a fan that circulates air over cooling
coils or evaporators to enhance heat exchange and air movement.
6. The Filter as claimed in claim 1, where it is a component that removes impurities and
contaminants from the air or refrigerant, ensuring smooth system operation.
7. The Evaporator as claimed in claim 1, where it is a heat exchanger where the refrigerant absorbs heat from the environment, evaporating the refrigerant into a gas.
8. The Freezer Box as claimed in claim 1, where it is a compartment that stores frozen
goods, typically located in a refrigeration system or appliance.
9. The Tube as claimed in claim 1, where it is a conduit through which refrigerant or air
flows, facilitating the transfer of heat or energy between components.10. The Tank as claimed in claim 1, where it is a storage container, often used to collect
water or refrigerant, depending on the system's design.
Documents
Application Documents
| # | Name | Date |
|---|---|---|
| 1 | 202441093944-STATEMENT OF UNDERTAKING (FORM 3) [30-11-2024(online)].pdf | 2024-11-30 |
| 2 | 202441093944-REQUEST FOR EARLY PUBLICATION(FORM-9) [30-11-2024(online)].pdf | 2024-11-30 |
| 3 | 202441093944-FORM-9 [30-11-2024(online)].pdf | 2024-11-30 |
| 4 | 202441093944-FORM FOR SMALL ENTITY(FORM-28) [30-11-2024(online)].pdf | 2024-11-30 |
| 5 | 202441093944-FORM 1 [30-11-2024(online)].pdf | 2024-11-30 |
| 6 | 202441093944-EVIDENCE FOR REGISTRATION UNDER SSI(FORM-28) [30-11-2024(online)].pdf | 2024-11-30 |
| 7 | 202441093944-EVIDENCE FOR REGISTRATION UNDER SSI [30-11-2024(online)].pdf | 2024-11-30 |
| 8 | 202441093944-EDUCATIONAL INSTITUTION(S) [30-11-2024(online)].pdf | 2024-11-30 |
| 9 | 202441093944-DRAWINGS [30-11-2024(online)].pdf | 2024-11-30 |
| 10 | 202441093944-DECLARATION OF INVENTORSHIP (FORM 5) [30-11-2024(online)].pdf | 2024-11-30 |
| 11 | 202441093944-COMPLETE SPECIFICATION [30-11-2024(online)].pdf | 2024-11-30 |