RU2169237C1 - Plant for production of fresh water with use of natural cold - Google Patents

Abstract

FIELD: plants for fresh water production; applicable in agriculture, industry and in household conditions for production of purified water in regions with no sources of fresh water. SUBSTANCE: plant has heat exchanger-condenser in form of two coaxially installed tubes. Internal tube is communicated with water lower layers of water reservoir and hydraulic pump is installed in this tube. Heat exchanger-condenser and coaxial to it cylindrical drip pan are attached to floating body. Secured to drip pan are plates of air conduits. Plant has electric fan, power supply unit, air velocity pickup. EFFECT: reduced power input in production of purified fresh water, reduced its cost and capital and maintenance expenditures for equipment. 1 dwg

Description

 The invention relates to installations for producing chilled fresh water from moist air using natural cold. With the help of these installations it is possible to obtain purified fresh water from areas in which there are no fresh water sources (including the seas of the sea) to obtain environmentally friendly agricultural products. The installation can be installed on the anchorage, decks of marine vessels or follow them in tow, as well as in bodies of water unsuitable for food use, and used in agricultural, industrial production and in everyday life.

 Closest to the technical nature of the present invention is the "Installation for fresh water from moist air", containing a heat exchanger-condenser, ducts, hydraulic pump. (RU 2056479 C1, E 03 B 3/28, 03.20.96).

 The installation works on the principle of the used generated cold for condensation of steam in the air.

 The disadvantage of the described installation is the additional energy costs for the production of cold and for the continuous operation of the fan, which reduces the efficiency of the whole process.

 This invention is aimed at achieving a technical result, which consists in reducing the energy consumption and cost of the obtained chilled purified fresh water.

 To achieve this technical result, the installation for producing fresh water, comprising a heat exchanger-condenser, air ducts, a hydraulic pump, is characterized in that it is equipped with a floating housing with grippers for attaching flexible rods, while the heat exchanger-condenser is mounted on the housing and made in the form of two coaxially mounted pipes, and the hydraulic pump is located in the lower part of the inner pipe, and it is connected by a flexible hose to the lower layers of the water of the reservoir, and a cylindrical cylinder is installed coaxially with the heat exchanger-condenser cry droplet eliminator on which the duct plates are fixed. An electric fan can be mounted coaxially to it above the heat exchanger-condenser. The unit is equipped with a power and control unit with an electric fan and an air speed sensor installed in the upper part of the unit. Heat exchanger pins can be radially mounted on the outer tube of the heat exchanger-condenser.

 The technical result is achieved through the use of natural cold in the lower layers of water, the design of the heat exchanger-condenser and the use of an air speed sensor to control the electric fan. The special design of the heat exchanger-condenser allows you to use the natural cold of the deep layers of the water of the reservoirs and the natural movement of moist air masses above the surface of the reservoirs.

 The invention is illustrated in the drawing, which shows a General view of the installation. The installation comprises a floating housing 1, on which a heat exchanger-condenser 2 is installed, consisting of an external pipe 3 with heat exchange pins 4 installed on it, coaxially with an annular gap an internal pipe 5 connected to a hydraulic pump 6. An internal pipe 5 is connected to the upper part of the external pipes 3.

 A flexible hose 7 is put on the lower cut of the inner pipe 5, lowered into the lower layer of the reservoir’s water, on the outer part of the housing 1 there are grips 8 to which flexible rods 9 are attached, which are connected in turn with the anchor load 10. On the housing 1, coaxially with the heat exchanger a condenser 2 has a cylindrical droplet eliminator 11, on which plates of air ducts 12 are mounted. A fitting 13 is mounted on the upper part of the housing 1, connected by a pipe 14 through a valve 15 to the lower part of the housing 1. On lock 17 power and control, which can perform the functions of a battery of electrical energy, and a sensor 18 of the air speed. On the screen 16, solar panels 19 of the power supply system can be installed, and below it, an electric fan 20 is coaxially mounted above the heat exchanger-condenser 2. Power is provided both via cable and from solar panels.

 Installation for producing chilled fresh water and its purification using natural cold works as follows.

 The floating body 1 is installed on the surface of the reservoir. Clamps 8 are attached to the body, to which flexible rods 9 are attached, which in turn are attached to anchor loads 10, or towing devices (in the variant of towing the installation by a ship).

 The ambient humid atmospheric air enters (enters) through the air ducts 12 into the heat exchanger-condenser 2, blowing the surfaces of the outer pipe 3 and the heat exchange pins 4 installed on it. The hydraulic pump 6 is turned on from the power and control unit 17, and the cold deep water begins to rise along the flexible hose 7 into the inner pipe 5 and from there further into the annular space between the outer pipe 3 and the inner pipe 5 and then spills back into the reservoir. Under the influence of cold water, the outer surfaces of the heat exchanger-condenser 2 begin to cool (the outer tube 3 and the heat exchanger pins 4 installed on it), which in turn are blown by the external moist ambient air. In this case, the water vapor contained in the atmospheric air begins to condense on the cooling surfaces of the heat exchanger of the condenser 2. Condensed water flows into the water collector located in the housing 1.

 If the air velocity weakens and becomes lower than the allowable (required), then, at the signal of the air velocity sensor 18, the electric fan 20 is turned on through the power supply and control unit 17, and moist air from the top of the unit is pumped into the heat exchanger-condenser 2, increasing the condensation rate of water vapor.

 The accumulated (condensed) and purified fresh water in the water collector of the housing 1 through the pipeline 14 and the valve 15 can be pumped to the consumer as necessary.

 Installation for receiving chilled fresh water and its purification using natural cold can be installed on the deck of ships, barges, floating platforms, as well as in reservoirs with food unsuitable for food use. Structurally, the plants can be installed on piles and have both small and large-scale dimensions, depending on the requirements of the consumer.

 Using the natural cold of the lower layers of water to cool the unit’s heat exchanger-condenser provides a reduction in energy consumption during the process of producing chilled fresh water and its purification, and the capital and operating costs of the equipment are also reduced.

Claims (4)

 1. Installation for fresh water containing a heat exchanger-condenser, air ducts, a hydraulic pump, characterized in that it is equipped with a floating housing with grippers for attaching flexible rods, while the heat exchanger-condenser is mounted on the housing and made in the form of two coaxially mounted pipes, and the hydraulic pump is located in the lower part of the inner pipe and it is connected by a flexible hose to the lower layers of the water of the reservoir, and a cylindrical droplet separator is mounted coaxially with the heat exchanger-condenser on which Astina ducts.  2. Installation according to claim 1, characterized in that an electric fan is mounted coaxially to it above the heat exchanger-condenser.  3. Installation according to claim 1, characterized in that it is equipped with a power supply and control unit, electrically connected to an electric fan and an air speed sensor located in the upper part of the installation.  4. Installation according to claim 1, characterized in that the heat exchanger pins are radially mounted on the outer pipe of the heat exchanger-condenser.