Образец оформления рукописи научной статьи
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min.). It is possible (without prejudice to the calculation). In addition, the air inside the solar greenhouse is well mixed, i.e. the difference between temperatures and relative moisture contents at various points with a generous (object with concentrated parameters;
b) With heat exchange, the magnitude of the relative moisture content of the inner air is permanent (this corresponds to the case when the relative moisture content of air operates in the greenhouse). In the mass transfer process, the internal air temperature is received unchanged, which will correspond to the operation of the temperature controller. As a result of such a single approach of the temperature-wet mode of paragasic mixture, we obtain the processes of temperature change and relative humidity, independent of each other, for which transfer functions are located. As noted above, there are six tanks capable of accumulating thermal energy. But in many practical calculations of the energy regime of the heat and heat-accumulating abilities of the translucency, the fencing is adapted due to its relatively insignificance compared to other constructions of the structure. We will also hold this point of view, and we exclude from consideration the absorption capacity of heat of translucent fences, then in our case there will be five containers of the thermal energy, and, accordingly, in the preparation of the differential equation of structures (greenhouses), in each of them, the equations are compiled heat exchange. In this case, we take into account the following factors: -availability of heat due to radiation; -proving soil; -propotieri through translucent fences; -propotier with recycled air; - the heat of heat to evaporate moisture from the soil and vegetation. There is also a thermal balance of each heat accumulating element. It includes the flow of heat from internal air, heat loss in the process of heat transfer and heat accumulation by water and subsoil batteries. List of sources used 1. Байрамов Р.Б., Рыбакова Л.Б. Микроклимат теплиц на солнечном обогреве. Ашхабад, 1983 г., 85 с. 2. Исаев С.М. К вопросу аналитического определения удельного влагосодержания воздуха гелиотеплицы. Сб.научно-теоретической конференции в честь 600-летия Мирзо Улугбека. Карши., 1994 г. Т.4., 28-32 с. 3. Хайриддинов Б.Э., Исаев С.М., Аширбаев М.У. Математическая модель блочной гелиотеплицы-сушилки с подпочвенным аккумулятором тепла. // Гелиотехника. 1990. №5. 80-83 с. Download 18.79 Kb. Do'stlaringiz bilan baham: |
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