The topic of resource and energy saving is relevant for most industrial enterprises, in this regard, solutions aimed at saving resources, including trigeneration systems, are being introduced everywhere. The directions of improving the elements of autonomous trigeneration systems are relevant. The work considers the concretization of the previously known approach to the calculation of the air path of air conditioning systems, taking into account the peculiarities of the functioning and geometry of small trigeneration systems. A detailed algorithm is presented for a particular case of the air path of a small local trigeneration system. The results of calculations of the model are presented, as well as comparison with the results of similar calculations. The calculation methodology previously used in the work was applied only when calculating the elements of ventilation and air conditioning systems for buildings and structures. The full pressure losses during air movement in the channel at various air speeds were calculated. A duct fan was selected taking into account the aerodynamic calculation results. The obtained operating parameters of an electrical fan for the air flow distribution unit in the air conditioning subsystem can be used to develop a model for tracing the impact of external factors on operation of the air conditioning subsystem. Calculation of air path parameters will make it possible to determine the geometric dimensions of the air flow distribution unit in the air conditioning system of the autonomous trigeneration system.
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21 June 2021
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Social sciences, education and psychology, technology and education, economics and law, interdisciplinary sciences
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Gordin, S. A., Sokolova, V. S., Bazherianu, V. V., & Zaychenko, I. V. (2021). Calculation Of The Air Path Of An Autonomous Trigeneration System. In & N. G. Bogachenko (Ed.), Amurcon 2020: International Scientific Conference, vol 111. European Proceedings of Social and Behavioural Sciences (pp. 958-965). European Publisher. https://doi.org/10.15405/epsbs.2021.06.03.126