Design, development and performance estimation of 110 kW kinetic heating simulation facilities for material studies–Phase I

Journal of Cybersecurity and Information Management Pub Date : 2021-10-01 DOI:10.54216/jcim.050102

Aldin Justin Sundararaj, K. Sagayam, Ahmed A. Elngar, A. Subash, B. Pillai

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引用次数: 3

Abstract

In this work, a kinetic heating simulation (KHS) facility has been designed, developed and the performance estimation is carried out in Propulsion and High enthalpy lab held at Karunya Institute of Technology and Sciences. The main objective of developing a KHS facility is to study the material characteristics high temperature paints at elevated temperatures. The Kinetic heating simulation facility is developed for 110 kW power rating. The current facility is designed to hold maximum of 105 Infrared lamps with each lamp having a power rating of 1kW. Ceramic lamps are used for heating the specimen. 15 lamps are placed in a bank and each bank can be controlled individually with the help of controlling unit. A total of 7 banks are used in operation of the kinetic heating simulation facility. To estimate the performance of the KHS facility K-type thermocouple are used for feedback as well as to measure temperature. The KHS also has provision for heat flux measurement. Preliminary studies are carried out to estimate the performance of KHS facility for various ranges

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用于材料研究的110千瓦动态加热模拟设备的设计、开发和性能评估——第一阶段

在这项工作中，设计、开发了一个动力学加热模拟(KHS)设备，并在Karunya理工学院的推进和高焓实验室进行了性能评估。开发KHS设备的主要目的是研究高温涂料在高温下的材料特性。动态加热模拟设备的额定功率为110千瓦。目前的设施最多可容纳105个红外灯，每个灯的额定功率为1kW。陶瓷灯用于加热试样。15盏灯放置在一组灯中，每个灯组可以通过控制单元单独控制。在动力学加热模拟设施的运行中，总共使用了7个热源。为了估计KHS设备的性能，k型热电偶用于反馈以及测量温度。KHS也提供热通量测量。我们进行了初步研究，以估计KHS设施在不同范围内的性能

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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来源期刊

Journal of Cybersecurity and Information Management

CiteScore

0.70

自引率

0.00%

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