NUMERICAL STUDY THE EFFECT OF AIR BARRIERS HEIGHT INSIDE THE AIR CONDITIONING DUCTING TO SATISFY THE REGULATION OF INDONESIA MINISTER OF TRANSPORTATION NUMBER 69 OF 2019

Q3 Engineering Journal of Applied Engineering Science Pub Date : 2023-12-06 DOI:10.5937/jaes0-45415

Fauzun Fauzun, Cahyo Wibi Yogiswara, H. M. Ariyadi, Muhammad Salim Taufiqurrahman, Aldy Franstanata Ritonga, Indro Pranoto, Rendianto Aginta Garingging, Fakhreza Areli, Rahma Kurnia Putra, Maulana Hafizh Al-Qadri, Afrizal Soffan Fatkhi, Rahardian Titus Nurdiansyah, Firdausa Retnaning Restu

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Abstract

The Indonesian smart hybrid light train is a train under development by the government and will operate in Makassar-Parepare, Indonesia track. The authors conducted a numerical study on CFD to investigate the air flow distribution inside the air conditioning ducting and the air velocity and air temperature distribution on Motor Engine and Compartment (MEC) car to achieve the passenger comfort criteria based on the regulation standard of Indonesia Minister of Transportation Number 69 of 2019. This study was conducted by simulating 5 variations of air barriers height inside the supply ducts. The input of air into the ducting has the parameters of mass flow rate, static temperature, static pressure, and density with the values of 1 kg/s, 20 °C, 1 atm, and 1.2 kg/m3, respectively. The simulation results show that variation E is the best design which generated the average air velocity and air temperature distribution in the executive passenger cabin with the values of 0.25 m/s and 21.91 °C, respectively. Meanwhile, the other 4 variations did not satisfy the standard. The results also show that the ducting geometry can accommodate the air temperature difference on the MEC car that does not exceed 1.5 °C and the air supply is sufficient from the air conditioner unit to the driver room.

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为满足印度尼西亚交通部长 2019 年第 69 号法规的要求，对空调管道内空气屏障高度的影响进行数值研究

印尼智能混合轻轨是一种由政府开发的列车，将在印尼望加锡至帕累帕尔的轨道上运行。基于印尼交通部长2019年第69号法规标准，采用CFD数值计算方法，研究了汽车发动机与车厢(MEC)空调管道内的气流分布以及空气速度和温度分布，以达到乘客舒适度标准。本研究通过模拟供气管道内空气屏障高度的5种变化进行。风道输入的空气参数为质量流量、静温度、静压和密度，分别为1kg /s、20℃、1atm和1.2 kg/m3。仿真结果表明，变式E为最佳设计方案，其产生的行政客舱平均风速和温度分布分别为0.25 m/s和21.91℃。同时，其他4个变型不符合标准。结果还表明，管道几何形状可以适应MEC汽车上不超过1.5°C的空气温差，并且从空调机组到驾驶员室的空气供应充足。

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来源期刊

Journal of Applied Engineering Science Engineering-Engineering (all)

CiteScore

2.00

自引率

0.00%

发文量

122

审稿时长

12 weeks

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