DE102004001139A1 - Greenhouse warming method for e.g. plant breeding, involves accumulating heat energy in container containing water, splitting water taken from area of heat accumulator and returning water into another area, after heat exchange - Google Patents

Abstract

The method involves accumulating heat energy in a container containing water, during summer, where the container functions as a heat accumulator (1). Gradients of temperatures during which transfer of the energy is done by air and water, are created. Heating/cooling of the air is done by outlets of a heat exchanger. The water taken from an area of the accumulator is split. The water is returned into another area, after heat exchange. An independent claim is also included for a greenhouse with a double roof and warming units.

Description

The Invention focused on the complex agricultural objects and the process of their warming based; in particular to the objects of common use for: plant breeding, Mushroom cultivation, also poultry farming, and insect breeding, for example for the worm cultivating. It is also possible, they in any rooms to use where you have to create and support the microclimate.

The agricultural complexes, which has the energy of overwork the waste use, are known. For example, the patent Russian Federation RU 2101440, 6E 04H 5/08, this represents the multisports agrarian Construction dar. The waste of this agricultural production - vegetable growing and livestock in the fermentation tank with the use of the received gas for heating processed. In the offered procedure for warming gets the heat used, which is produced in the course of composting, that is cheaper and safer. The hothouses for the Breeding of mushrooms and plants are also known, the patents: RU 2087092, 6A01G 9/24, 31/02 and RU 2062022, A01G 9/24; the sections the mushrooms are in the channels established, they are separated from the air-permeable septum and supplied with the transporter on which the belly shops for the mushrooms be set up. The main difference on the similar Area of the features is the possibility the wider application of the offered hothouse.

The Method of heating of the greenhouse with evenly splashed it on the inner layer of the foil covering of the water - SU 1155196 A01G 9/24 is known. In the offered variant is the water sprayed between the covers and for the dissipation of heat in the heat accumulator used. It is the process of warming the greenhouse by the accumulation of heat energy in the pits in the summer time and their use in the season low temperatures by means of circulation of atmospheric Air through the ground. Regulation of the microclimate of the greenhouse is caused by the directional change of water in the layers of the soil, by means of creating the difference of pressures in the hydrous Layer realized - SU 1496431 A01G 13/06. The procedure calls for the significant energetic Costs, including the Heat losses, but just such invention is important to the importance of the essential Features a closer Analog, so it is necessary she for to take over the prototype. Unlike the prototype, the offered method is the Heating is directed to the maximum saving of energy supplies, This is the saving and rational use of heat energy the special meaning is given.

The Main differences from the prototype are: the prototype uses the heat energy accumulated in the pits, the storage time of the heat energy and the possibility the realization of the method depends on the parameters of the Soil off. The displacement of the warm water by the process filtration in the underground water-permeable horizon, with the aim the lowering of the temperature in the greenhouse.

This Procedure is electricity intensive and with the heat losses at the expense of Mixing of hot and cold water and heat conduction connected, so it means that the heat energy is not used useful becomes. The abundance the heat is not accumulated, but scattered. That means the Thermal energy less effectively used.

The The aim of the invention is the increase the effectiveness and energy saving of greenhouses, the expansion of the range of agricultural production, who bred there was, and also the use of useful properties, which accompany the production.

The essence of the invention is: complex resource-saving greenhouse, in which the heat generated in the composting is used as the main source of heat energy, as an additional heat source, the solar energy is used. Thermal energy with calculation of the minimum losses is given to the heat accumulator subject to creation and preservation of the maximum temperature gradient used for supply in hothouse departments of a greenhouse of the abandoned microclimate. For the realization of the above-described heating method, the greenhouse with the double cover of glass, or foil and glass is proposed. The construction of a tent of a hothouse thus provides a possibility of movement of air in a space between coverings; he communicates directly with the greenhouse departments for the preparation of the compost which form the tunnel space along the perimeter of the greenhouse. Shifting and mixing of the compost are ensured along the greenhouse departments with the transporter. Warm air formed during the fermentation of the compost rises and heats the tent roof. Along the ridge of the hothouse, in the space between the coverings, for injection Water pipe is established with jets, and in hothouses departments for removal and delivery of air pipes are arranged. The internal covering with pouring and water collecting gutters passing in a pipe, equipped; whereby the heat energy, which is laid by the water, arrives in the corresponding area of the heat accumulator.

The Variants of use of the invention: the first variant of use, in the immediate the thermal component solar radiation is used, it differs that hothouse departments are missing for preparation of compost. But this variant of fulfillment demands the larger volume the heat accumulators, that of the climatic conditions in which the greenhouse used will, depends.

The second variant is a complex greenhouse, it consists of three Shot: the upper floor adds the hothouse divisions of plant breeding, in the middle the mushroom saprophytes, and along the perimeter of the hothouse, as deepened tunnel space in the ground, the greenhouse departments for the Preparation of compost. They are in the upper part with the space between the covers of the motorhome is put together and transported by van for the Mixing and the shift of the compost equipped; in the lower level becomes the heat accumulator furnished, in which the abundance the sunny heat energy and the energy excreted during the fermentation of the compost is accumulated.

The third variant for joint breeding of plants with symbiotic mushrooms - in a greenhouse, as well as the second, one can refer to the best variant of the execution. She has the next differences: the motorhome departments of compost preparation will not deepened, the lower vegetative hothouse divisions are, as the basic space running above the the net over the Ground raised bridges - scaffolding decorated will, under the bridges is the frame, along which the ground floor partially or completely from the upper hothouse divisions by means of one or two types protective Material can be separated. The hothouse will be along the Row of trees furnished, with which the mushrooms form the symbiosis.

On the 1 the cross-section of the vertical secant from the plane of the greenhouse, according to the third variant, which is used for the plants and the fungi, is presented according to the resource-saving method of heating offered. It includes: heat-insulated heat accumulator 1 , the executive mechanism of the transporter 2 , the external cover 3 , the inner cover 4 , the pipe with the cooling water 5 , the pipe for taking and discharging the air 6 , the water collecting gutters 7 , the protective material 8th , the feeding role 9 , the taking over role 10 , the greenhouse departments of compost preparation 11 , the bridge of the operation 12 ,

The functioning of the greenhouse according to the offered warming way. The thermal regulation of the greenhouse is controlled by the processor, according to the temperature sensors. In the hothouses of the hothouse the process of preparation of the compost runs, the excreted heat energy is used for the heating of the hothouse or in the heat accumulator 1 accumulated. The raw material - compost is sent to the greenhouse departments 11 Loaded along the perimeter of the hothouse and assembled with the space between the covers. The process of shifting and the simultaneous mixing of the compost by the hothouse divisions is carried out by the transporter 2 executed. The heat excreted during the fermentation of the compost rises in the air flow upward between the coverings of the greenhouse to the ridge of the roof and ensures the warming of the tent roof of the greenhouse. In case of increase of temperature of a pitched roof higher the established limit, nozzles in a pipe with cooling water become 5 open. In the space between the coverings, the cooling water is splashed, which absorbs the heat energy of the tent roof of the greenhouse and, warmer afterwards, the water flows along the inner cover 4 into the water collecting channels 7 From where, depending on its temperature, water from the distributor in the corresponding section of the heat accumulator 1 to which it gives off the heat energy dissipated; If the temperature of area of a volume of water in this section raises, then inflow of heat energy in the heat accumulator is carried out. In hothouses departments temperature is adjusted as follows: in case of decrease in temperature in any of hothouses departments, the air seized from hothouse departments passes in the heat exchanger heat exchanger section corresponding to its temperature; and depending on the discharge temperature, which is determined by the processor within the set parameters of the optimal control, is transferred from the corresponding area of the heat exchanger, laying the heat energy to govern hothouse divisions. In case of increase of temperature in greenhouse units, process goes in the backward direction, and heat energy is transferred back to the heat accumulator. To grow plants together with symbiotic mushrooms, the hothouse is set up along the row of trees with which they grow Mushrooms form the symbiosis, and according to the variant that is on 1 is provided, is fulfilled: the lower vegetative hothouse divisions is executed as the basic space above which the network of uplifting bridges - scaffolds 12 placed above the ground, under the bridges, the frame is set up, along the ground space partially or completely from the upper hothouse divisions by means of one or two types of protective material 9 can be separated; for on one side of the hothouse divisions are the rollers leading to the protective material, and on the opposite side are the rollers with the drive.

The necessary condition for The symbiotic fungi is that some part of the root system the trees in the zone of the closed ground is, after preparation of the reason in which the mushrooms are planted, which with these trees the Forming symbiosis will be the optimal conditions for development Mycelium created, as a post-fertilization, organic substances supplied which are washed out of the compost.

It It is known that the economy of greenhouses is low is because they are the big ones heat loss to have. In the offered hothouse provides itself with the heat energy in the hot Season, when there is the heat energy are abounding, and used in the cold season, that's why the hothouse has not just the heightened Economy, but also the ecological cleanliness, since the atmosphere of the Products of combustion of fuel and emissions of the Thermal energy does not get dirty.

The is especially for Plant breeding and mushroom cultivation are recommended.

Claims (8)

The method of warming the greenhouse, which includes the accumulation of heat energy in the container with the water and its use for the creation of the microclimate in the departments of the greenhouse, characterized in that in the container with the water, which works as a heat accumulator, the Creates and supports temperature gradient of the water by the transfer of the heat energy from the water and the air are transferred depending on the temperature in certain areas of the volume of the heat accumulator; the heating or cooling of the air is accomplished by passing it through the heat exchanger, within which the water which is taken from the corresponding area of the heat accumulator is fragmented; after the heat exchange, the water returns to another area of the heat accumulator according to its temperature. The method according to claim 1, characterized that one the heat accumulator from the thermal insulation material manufactures, with second heat exchanger supplied by one of which the air and the air with the water vapors and through others - that Water is allowed to pass through. The method is according to claim 1, 2, characterized characterized in that the heat accumulator from several containers some of which are water and other liquids filled are. The complex resource-saving greenhouse with the double cover and the heating method according to claim 1-3 characterized in that the construction of the tent roof of Hothouse the possibility the movement of water and air in the space between coverings guaranteed the inner covering with the pouring and the water collecting gutters, the heat energy of the Water in the heat accumulator dissipates, is equipped; and the pipe with the nozzles along the ridge of the ridge Hothouse, in the space between the covers, is furnished. The complex resource-saving greenhouse according to claim 4, characterized in that the space between the covers directly with hothouse departments for preparation of compost putting together along the perimeter of the greenhouse partially deep into the ground laid tunnel rooms forming, the shift and the mixing of the compost becomes ensured there with a van; along the tunnel rooms the tube is min the nozzles set up and along the ridge of the hothouse, in the space between the covers, the pipe for The removal of air is directed, besides there are tubes for delivery and the removal of the air in the wheelhouse departments. The greenhouse according to claim 5, characterized in that the greenhouse departments for the preparation of the compost are arranged on the surface, and the lower vegetative hothouse divisions as the basic space is carried out, over which the network of raised above the ground bridge is placed under the frame the bridge may be partially or completely separated from the upper greenhouse compartments along the base space by one or two types of the protective material; for on one side of hothouse divisions the rollers leading to the protective material, and on the opposite side rollers with an drifted, arranged. The method of breeding symbiotic mushrooms is characterized in that the fungi are grown in the greenhouse, the near the row of trees arranged so that is part of the root system the trees located in the zone of the closed ground; after the preparation of the reason, nearby of the root system If you plant the mushrooms that form the symbiosis with these trees, the optimal conditions for the development of mycelium, the organic matter, which are washed out of the compost are used as the post-fertilizer. The method according to claim 7, characterized in that the plants together with the symbiotic fungi in the greenhouse after the point 6 on cultivating mushrooms in basic space, for creation of the optimum microclimate and illumination it is used transparent and opaque protective film; The plants are cultivated in the upper hothouse departments, the operation of the greenhouse is led from the bridges.