Investigating the Temperature and Air Velocity Distribution of Split- Type Air Conditioners Using Computational Fluid Dynamics

2018 4th International Conference on Science and Technology (ICST) Pub Date : 2018-08-01 DOI:10.1109/ICSTC.2018.8528596

Yosua Heru Irawan, D. Sugati, Harianto, M. Abdulkadir, Y. O. Agus Jayatun, Dandung Rudy Hartana

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引用次数: 2

Abstract

An air conditioning (AC) system is defined as a system that regulates the temperature, movement, and humidity of air in a particular room. An air conditioning system is said to have good performance if it is able to ensure a room is in a comfortable condition. A college classrooms is one place where teaching and learning activities are conducted. In general, classroom capacity ranges from 20 to 50 people. To avoid noise pollution from the surrounding environment, classrooms should be designed as closed rooms. A problem that often arises in classrooms is the uneven distribution of air temperature and circulation. In this research, numerical simulation is done using the classroom model at Sekolah Tinggi Teknologi Nasional (STTNAS) Y ogyakarta. The air conditioning system installed in the classroom includes two split-type AC units. Numerical simulation is performed on the classroom model using ANSYS Fluent software and a transient pressure-based solver to investigate the temperature and air velocity distribution of the air conditioning system. The room is simulated for 10 minutes, with a time step size of 1 second and total of 600 time steps. The maximum number of iterations per time step is set 100 iterations. Based on numerical simulations, it can be concluded that temperature distribution in the front of the room is higher than in other parts of the room. Furthermore, air velocity distribution in the front of the room is also lower than in other parts of the room. Temperature and air velocity distribution is uneven in the front of the room, a situation caused by improper placement of an indoor air conditioning unit.

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用计算流体力学研究分体式空调的温度和风速分布

空调(AC)系统被定义为调节特定房间空气的温度、运动和湿度的系统。如果空调系统能够确保房间处于舒适的状态，那么它就被认为具有良好的性能。大学教室是进行教学活动的场所。一般来说，教室的容量在20到50人之间。为避免来自周围环境的噪音污染，教室应设计成封闭的房间。教室里经常出现的一个问题是空气温度和循环分布不均匀。在本研究中，数值模拟是使用印尼雅加达国立理工大学(STTNAS)的课堂模型进行的。教室内安装的空调系统包括两台分体式空调。利用ANSYS Fluent软件和瞬态压力求解器对教室模型进行了数值模拟，研究了空调系统的温度和风速分布。房间模拟时间为10分钟，时间步长为1秒，共600步。每个时间步长的最大迭代次数设置为100迭代。通过数值模拟，可以得出房间前部的温度分布高于房间其他部分的温度分布。此外，房间前部的风速分布也低于房间其他部分。房间前方的温度和风速分布不均匀，这是由于室内空调机组放置不当造成的情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 4th International Conference on Science and Technology (ICST)

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