Adjustment of impulse weather regulators for heating of buildings
Автор: Panferov S.V., Panferov V.I.
Рубрика: Инженерное оборудование зданий и сооружений
Статья в выпуске: 1 т.18, 2018 года.
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The problem of adjustment of impulse weather regulators recommended for the elimination of overheating of buildings with excessive heating power both in the case of a "bad" temperature chart and during its "cutting off", as well as with poor-quality tuning of uncontrolled mixing units is considered. It is shown how in this case it is necessary to calculate the duty ration and the period of succession of the control pulses. The duty ratio of the control pulses is determined by the measurement results of either the system water temperature and its flow or the temperature of the heat carrier at the input of the heating system and its flow in it. The control pulse period is selected based on the desired quality of regulation in the steady state. At that, both the heat-shielding properties of heated buildings and the characteristics of their heating systems are taken into account. A qualitative analysis of dependences of the duty ratio and the repetition period of the control pulses from the influencing factors is carried out. Comparison of the obtained results obtained with the previously discovered data contained in literature sources is given; the proximity of their final results is shown. It is noted that the approach used in the research for solving the problem is more "transparent" and simple compared the previously used ones. Schemes of two variants of the technical implementation of a pulse control system are considered. The results of the work can be used in the automation of heating systems with uncontrolled mixing units, in particular for heating systems with elevator connection.
Automatic control system, heating unit, period and duty ratio of control pulses, temperature regime, flow ratio of heat carrier, weather graph, heat-protective properties of buildings, set temperature of internal air
Короткий адрес: https://sciup.org/147232083
IDR: 147232083 | DOI: 10.14529/build180106