RU2262045C1 - Solar water heating plant - Google Patents

Abstract

FIELD: solar power engineering.

SUBSTANCE: solar water heating plant comprises transparent vacuum multiple glass pane, heat insulated housing, and water supply and water distributing cocks. The housing is separated with a heat insulating baffle into two sections. The top section is used for heating water by solar radiation absorbed by the bottom and walls of the section. The bottom section is used for accumulating the water heated in the top section. The plant is provided with the valve which is controlled with the thermal gauge and is used for the overflowing water from the top section to the bottom section and overflow pipes that are also drain pipes. The plant also has the device with anti-evaporator to prevent condensate to be settled out on the inner side of the transparent vacuum multiple glass pane when a gap is presented between the multiple glass pane and water surface and instruments for visual monitoring of temperature and water lever in both of the sections. The housing is made of fiber glass and foam concrete. The transparent vacuum multiple glass pane is secured to the housing by means of locks through the flexible spacer.

EFFECT: enhanced efficiency.

2 dwg

Description

The invention relates to solar energy, in particular to the design and manufacturing technology of solar photothermal installations for generating heat.

Known solar collector containing a housing of heat-insulating material, a light-absorbing receiver located at the bottom of the housing, and translucent insulation, consisting of at least two transparent plates located one above the other at some distance [Auth. testimonial. USSR No. 1815525, class F 24 J 2/02, 1993].

The disadvantage of this design is the low efficiency due to the deposition of condensate on the surface of the transparent insulation facing the water and heat loss through the transparent insulation.

Known solar collector containing a hollow body of heat-insulating material, located inside the body and in thermal contact with the heat carrier and a light-absorbing receiver with a working surface on which solar radiation is incident, a translucent window in the body, consisting of at least two transparent sheets located one above the other with some clearance, moreover, the sheets are made of glass and hermetically connected around the perimeter, forming a closed volume pumped out to a vacuum, and turned into a vacuum about em surface, at least one sheet coated transmissive sun rays and reflecting heat rays; another option for the solar collector is that the coolant fills the entire cavity of the housing, and the heat carrier is a transparent gas or liquid chemically inert to the materials of the housing [Utility Model Certificate No. 27195 for application No. 200111637, arrival date 01/19/2001. Priority of January 19, 2001. Registered in the State register of utility models of the Russian Federation, Moscow, January 10, 2003].

The disadvantages of this design are the need for an external circulation circuit and storage tank capacity, as well as the lack of specific materials for the housing and devices for compensating for thermal expansion of the coolant and glass.

Closest to the claimed invention is a solar water heater comprising a thermally insulated body with a transparent coating, a light-absorbing receiver located therein and a partition forming a hot water storage tank with the housing, and a water channel hydraulically connected to the storage tank with the receiver; while in the channel there are nozzles for supplying cold and hot water, the collector-accumulator is equipped with double-sided mirror coatings [Auth. testimonial. USSR No. 1467332, class F 24 J 2/06, 2/34, 1989 - prototype].

The disadvantage of this design is the low efficiency due to large losses through the transparent coating, as well as due to the location of the absorbing surface of the solar radiation receiver after the transparent coating, which leads to an increase in the temperature of the receiver and irrational heating of the liquid from above. In addition, this design does not contain devices for transferring heated water into the storage tank and other elements necessary for the operation of the water heater.

The objective of the invention is the creation of a functionally provided solar water heater with high efficiency of solar energy, increasing the service life of the installation, reducing cost.

As a result of using the present invention, the efficiency of the installation is increased, the cost is reduced and functionality is provided.

The above technical result is achieved in that in a solar water heating installation containing transparent vacuum glass units, a thermally insulated body, water supply and water taps, the body is divided by a thermally insulated partition into two compartments, the upper compartment is designed to heat water by solar radiation absorbed by the bottom and walls of the compartment, and the lower compartment — for accumulation of water heated in the upper compartment, the installation comprising a valve controlled by a temperature sensor for overflowing heated water from the upper compartment to the lower and overflow pipes, which are simultaneously drainage, and also contains a device with an anti-evaporator to prevent condensation on the inner side of the transparent vacuum glass unit in the presence of a gap between the glass unit and the water surface and visual temperature and water level control devices in both compartments, the body is made of fiberglass and foam concrete, and a transparent vacuum glass unit through an elastic gasket with locks is attached to the body.

The solar water heating system contains mirrors that additionally reflect solar radiation onto a transparent vacuum glass unit.

In a solar water heating installation, the tap for supplying tap water is float-operated.

Essence: the installation casing is made of a new building material - glass-fiber - and foam concrete; separation of the hydro- and thermally insulated partition of the case into two compartments - for heating water and for accumulating heated water; the installation on the side walls of the cold water supply tap and the hot tap; a valve controlled by a temperature sensor is installed to regulate the temperature of the water in the water heater and the overflow of heated water into the battery; the installation near the partition of the device for visual control of the temperature of the water in the water heater and the second device - near the bottom - for visual control of the temperature of the water in the battery; temperature sensors can be connected to a measuring device; installing a water level sensor on the battery; the establishment of overflow pipes in both compartments, which simultaneously serve as drainage pipes; giving a waterproof layer of the inner surface by impregnation with a waterproofing material, for example a hydrotex; for sealing between a vacuum translucent window (double-glazed window) and the ends of the case, heat-resistant elastic seals are used; to create the convenience of servicing transparent vacuum double-glazed windows and cases, they are locked together with locks; thermal insulation of the outer surface of the housing with foam concrete; the use of a device (dropper) with an anti-evaporator to prevent condensation from precipitating on the inside of the glass; the installation of mirrors on the north side of the housing to reflect on the receiver of solar radiation.

The manufacture of a solar water heating installation includes the creation of a casting mold according to the specified dimensions of the housing, the selection of chemical compositions of fiberglass concrete, the preparation of mortar, pouring, hardening, fastening of taps for supplying cold and removing heated water, a dropper, a level gauge, temperature sensors, sealing and fixing a vacuum glass on the ends of the housing , mirror mounting on the north side of the installation, waterproofing the inner surface of the housing and thermal insulation of the outer surface with foam concrete.

The indicated technical effect of the invention is achieved by the fact that in a known solar water heating installation consisting of a vacuum transparent glass unit, a thermally insulated body with a partition located therein, forming a storage tank for the water heated in the receiver, pipes for supplying cold and hot water, the body and the partition is made of glass-fiber-foam concrete, and the thermally insulated partition divides the casing into 2 compartments: the upper one is for heating water with sunlight, at om the upper surface of the partition is luchepogloschayuschey and the lower compartment - for storing the heated water in the upper compartment.

The solar water heater contains a valve controlled by a temperature sensor, which, at a given temperature, opens or closes the flow of water into the lower compartment. Thus, heated water from the upper compartment is poured into the lower - the heated water accumulator.

In the proposed solar water heating system, a gap of 3 cm is left between the transparent vacuum glass unit and the surface of the heated water.

In a solar water heating system, next to a cold water tap (possibly a float valve), there is a device (dropper) with a water anti-evaporator to prevent condensation from precipitating on the inside of the glass packet.

In the solar water heater on the north side, mirrors are installed at a certain angle to reflect solar radiation on the water heater.

In a solar water heating installation, the mirrors are equipped with a rotary mechanism, for example a hinge, to change the angle of inclination depending on the declination of the Sun and to reduce heat loss during the sunless period when folded.

In a solar water heating system, a transparent vacuum glass unit is provided for the prevention or repair of both the package itself and the case.

The essence of the invention is illustrated by drawings, which show a longitudinal (figure 1) and transverse (figure 2) sectional design of a solar heater.

The solar water heating installation contains a glass-fiber and foam concrete casing 1, a partition 2 between the compartment 5 for heating water and for accumulating it in compartment 7, valve 3 (may be float) for supplying cold (for example, tap) water, a dropper 11 for supplying anti-evaporation liquid, a transparent vacuum double-glazed window 4, a valve 6 controlled by a temperature sensor, a tapping valve 8, a water level sensor 12.

The solar water heater shown in FIG. 2 in cross section further comprises reflecting mirrors 9 pivotally mounted on the north side of the vessel and a gap 10 between the transparent vacuum glass unit and the surface of the heated water.

Solar water heater works as follows.

Solar radiation enters directly and after reflection from the mirror onto the horizontally located surface of the glass packet, and then onto the surface of the water, is partially absorbed in it, and the rest is absorbed by the blackened bottom of the upper compartment, while the depth of the first compartment should be calculated for the maximum possible daily volume of heated water (not more than 100 liters / m ² , i.e. the depth is not more than 100 mm, except for the gap), and the depth of the second is to the maximum storage volume of heated water (usually not more than a three-day supply). Absorbed solar radiation heats the water, and the "greenhouse effect" and the thermal insulation of the body and partitions prevent the rapid cooling of the water. In order to avoid precipitation of condensate on the inner side of the double-glazed window, 2-3 drops of an anti-evaporator, for example PMS-200 liquid, are injected from a dropper together with cold water. To measure the water temperature in the heating compartment and in the battery, thermometers or other indicating devices can be installed, as well as liquid level indicators, for example, based on communicating vessels. Both cavities contain overflow (they are drainage) tubes.

When the water temperature in the first compartment reaches a preset value, a valve, for example an electromagnetic one, opens and heated water flows by gravity into the accumulator, when the water temperature drops below a predetermined value, the valve closes the message between the compartments, and a new portion of water enters the upper compartment through the float valve, t. about. the cycle repeats.

The method of installation of a solar water heating installation is as follows.

A glass-fiber-reinforced concrete case, for example, 1120 × 1120 × 600 mm ³ in size, is installed on the horizontal surface of the roof of the building or the ground, a heat-resistant elastic sealant 5 mm thick is installed at the ends of the container, a transparent vacuum glass unit with a size of 1010 × 1010 × 6 mm is installed on it ³ , fixed by 8 locks through an elastic gasket, reflective mirrors are installed on the north side of the case and are fixed at an angle of inclination α, necessary for additional reflection on the solar radiation water heater.

The casing is divided by a 70 mm thick insulated partition into the upper compartment (dimensions 1000 × 1000 × 100 mm ³ ) for heating water and the lower (dimensions 1000 × 1000 × 375 mm ³ ) for accumulating water heated in the upper compartment. The inner part of the upper compartment is hydro- and thermally insulated with a material, such as a hydrotex, and blackened, for example, with black varnish. On the left side of the upper compartment there is a faucet for supplying cold water, a dropper for injection of an anti-evaporator and an overflow pipe, which simultaneously serves as a drain; a temperature sensor is installed on the right side of the upper cavity, which controls the valve for overflowing water into the lower compartment; In the lower compartment there is a water taps, an overflow pipe and a water level indicator. In the absence of power supply, the valve can be controlled manually.

Claims (3)

1. A solar water heating installation containing transparent vacuum double-glazed windows, a thermally insulated casing, water supply and water taps, characterized in that the casing is divided by a hydrothermal insulated partition into two compartments, the upper compartment is used to heat water by solar radiation absorbed by the bottom and walls of the compartment, and the lower compartment - for accumulating heated water in the upper compartment, the installation comprising a valve controlled by a temperature sensor for overflowing heated water from the upper compartment to the lower and overflow It also contains drainage tubes, which also contains a device with an anti-evaporator to prevent condensation from precipitating on the inside of a transparent vacuum glass unit with a gap between the glass unit and the water surface and visual temperature and water level control devices in both compartments, the case being made of fiberglass - and foam concrete, and a transparent vacuum glass unit through an elastic gasket with locks is attached to the body. 2. The solar water heating installation according to claim 1, characterized in that it contains mirrors that additionally reflect solar radiation onto a transparent vacuum glass unit. 3. The solar water heating installation according to claim 1 or 2, characterized in that the faucet for supplying tap water is made float.

Images