DE521667C - Greenhouse plant - Google Patents

Description

For greenhouse heating, hot water heaters are almost universally used which extensive pipelines have to be arranged in the greenhouse. The particular disadvantage of these hot water heaters is that the investment costs are very high because the heat dissipation from the Heating pipes to the surrounding air is low as a result of the low speeds of the Water flow in the heating pipes and the air flowing past the pipes.

Another suggestion, which comes from the inventor himself, is to condense the exhaust steam in greenhouses that are assigned to a steam power plant in an evaporation condenser acted upon by air and spray water and to feed the heated moist air from the condenser to the greenhouse. Apart from the fact that this device is always tied to the presence of a suitable power station, this heating has particular disadvantages which have hitherto prevented its introduction into practice. First of all, the transport of the heat through air ducts from the evaporation surface condenser of the power plant to the greenhouse is relatively cumbersome and expensive because large and long ducts are required. In addition, in winter, i.e. at a time when heating is of particular importance, the outside air supplied to the condenser has a very low temperature, for example - ι o ° C and less, then has to be ^{heated to 40 0} ·, so that a total of a temperature increase of 50 ^{0 is} required.

While in this proposal the heater is designed as a draft heater, it is proposed according to the invention that the blower air heater of known type Recirculate room air in the greenhouse. Apart from the fact that those mentioned The disadvantages of draft air heating in terms of thermal technology are avoided, the circulation heater according to the invention also has great horticultural aspects Advantages. First of all, due to the circulation of the air, there is even heating all parts of the greenhouse take place, with operation at a low temperature level and can be carried out with large amounts of air to be circulated. As a result of the circulatory flow, there is also a favorable one Rinsing around the plants, which are always in contact with new carbon dioxide particles come. It is well known that a favorable supply of carbonic acid is necessary in greenhouse operations desirable to achieve intensive growth. The increase in carbonic acid content the indoor air of the greenhouse happened so far as a side effect of dung packs used to warm the soil by placing them in humus soil through bacterial respiration Carbonic acid is formed '. Lately it is named in larger plants the carbonic acid content of the greenhouses through chemical reactions, for example

by. Burning charcoal, artificially elevated. For this purpose, small stoves are used in which the charcoal is burned. the Use of this artificial carbon dioxide supply in greenhouses with draft air heating is practical, not possible because the carbonic acid formed in a short time is discharged into the atmosphere. In contrast, it is with the circulation heating after the Er-ο finding possible to maintain the increased carbonic acid content for a longer period of time, whereby the circulation of the air for an even distribution of this carbonic acid for the purpose of delivery to the cultures.

In the case of the circulation heating according to the invention, any desired humidification of the air can be used by adding water spray anywhere in the circuit. The addition of Spruh.wa.sser is already done became known in the aforementioned proposal for draw-through heating, but one is here as a result of the only one-time passage of air and the extraordinary Sluggishness of the process of water evaporation unable to. to increase the moisture content to a significant extent. The situation is different with circulation heating, in which the air is in constant circulation is moved by the air heater, so that the humidification with each circulation repeated.

Another advantage of the circulation heater according to the invention is that * the Fans can easily be switched to ventilation mode.

In the drawing is an embodiment of the invention shown.

Fig. Ι shows the elevation of a greenhouse,

Fig. 2 and 3 show an air heater in enlarged scale in elevation and plan.

Figs. 4 and 5 show an elliptical finned tube in elevation and plan.

To heat the greenhouse 1 and 2, air heaters 3 are used per se, known design, which are fed from a low-pressure steam boiler 4 via line 5 with low-pressure steam of a little over 1 oo ° C. That Condensate flows back through line 6.

The air heaters are in a manner known per se in the illustrated embodiment made of elliptical finned tubes 7 and carry a water or steam chamber at the top and bottom. the Air heaters are equipped with a motor-driven fan that controls the in Direction of arrow (Fig. 2 and 3) sucked in air at high speed and accordingly increased heat transfer through the heater and then either immediately brings or from the exhaust opening 9 into the air space of the greenhouse according to Fig. 1 through a connected to the exhaust opening in the floor of the greenhouse provided channel ι ο with openings 11 distributed in the greenhouse.

To get the required moisture content To achieve the air, the sucked air flow is sprayed in a known manner fed by nozzles 13 connected to water pipes 12, which at Passage through the heater completely or partially evaporated and at the same time the heat transfer capacity of the radiator increases.

Claims (1)

Claim: Greenhouse system with fan-operated hot air heating, characterized in that that forced air heaters of a known type circulate the air in the greenhouse. 1 sheet of drawings