Exercise and resting periods: Thermal comfort dynamics in gym environments

IF 6.1 1区 工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY
Ali Berkay Avci, Görkem Aybars Balci, Tahsin Basaran
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引用次数: 0

Abstract

Physical exercise spaces emerged as popular facilities due to recognizing the significance of physical well-being. This study investigates the relationship among physiological responses, human body energy transfer modes, and indoor environmental conditions in influencing thermal comfort perception within indoor physical exercise space. Seven male participants engaged in a 30 min constant-work-rate cycling exercise and a 20 min resting period in a climatic chamber. The physiological and environmental responses were recorded during the experiments, and the body’s energy transfer modes were calculated using the collected data. The dataset was prepared using the 2 min averages of the collected data and calculated parameters across the experiment phases, including the features of skin temperature, core temperature, skin relative humidity, heart rate, oxygen consumption, body’s heat transfer rates through convection, radiation, evaporation, and respiration, net metabolic heat production rate (metabolic rate minus external work rate), indoor air temperature, indoor relative humidity, air velocity, and radiant temperature. Gradient boosting regressor (GBR) was selected as the analyzing method to estimate predicted mean vote (PMV) and thermal sensation vote (TSV) indices during exercise and resting periods using features determined in the study. Thus, the four GBR models were defined as PMV-Exercise, PMV-Resting, TSV-Exercise, and TSV-Resting. In order to optimize the models’ performances, the hyperparameter tuning process was executed using the GridSearchCV method. A permutation feature importance analysis was performed, emphasizing the significance of net metabolic heat production rate (24.2%), radiant temperature (17.0%), and evaporative heat transfer rate (13.1%). According to the results, PMV-Exercise, PMV-Resting, and TSV-Resting GBR models performed better, while TSV-Exercise faced challenges in predicting exercise thermal sensations. Critically, this study addresses the need to understanding the interrelationship among physiological responses, environmental conditions, and human body energy transfer modes during both exercise and resting periods to optimize thermal comfort within indoor exercise spaces. The results of this study contribute to the operation of indoor gym environments to refine their indoor environmental parameters to optimize users’ thermal comfort and well-being. The study is limited to a small sample size consisting solely of male participants, which may restrict the generalizability of the findings. Future research could explore personalized thermal comfort control systems and synergies between comfort optimization and energy efficiency in indoor exercise spaces.

运动和休息时间:健身房环境中的热舒适动态变化
由于人们认识到身体健康的重要性,体育锻炼空间成为一种流行的设施。本研究探讨了生理反应、人体能量传递模式和室内环境条件在影响室内体育锻炼空间热舒适感方面的关系。七名男性参与者在恒温室中进行了 30 分钟的恒定工作速率自行车运动和 20 分钟的休息时间。实验过程中记录了生理和环境反应,并利用收集到的数据计算了人体的能量传递模式。数据集是根据各实验阶段收集的数据和计算参数的 2 分钟平均值编制的,包括皮肤温度、核心温度、皮肤相对湿度、心率、耗氧量、人体通过对流、辐射、蒸发和呼吸的热传递率、净代谢产热率(代谢率减去外部做功率)、室内空气温度、室内相对湿度、风速和辐射温度等特征。选择梯度提升回归模型(GBR)作为分析方法,利用研究中确定的特征估算运动和休息期间的预测平均投票(PMV)和热感觉投票(TSV)指数。因此,四个 GBR 模型被定义为 PMV-运动、PMV-静息、TSV-运动和 TSV-静息。为了优化模型的性能,使用 GridSearchCV 方法执行了超参数调整过程。进行了排列特征重要性分析,强调了净代谢产热率(24.2%)、辐射温度(17.0%)和蒸发传热率(13.1%)的重要性。结果显示,PMV-Exercise、PMV-Resting 和 TSV-Resting GBR 模型表现较好,而 TSV-Exercise 在预测运动热感方面面临挑战。重要的是,本研究满足了了解运动和休息期间生理反应、环境条件和人体能量传递模式之间相互关系的需要,以优化室内运动空间的热舒适度。本研究的结果有助于室内健身房环境的运行,以完善其室内环境参数,优化用户的热舒适度和健康。本研究的样本量较小,仅包括男性参与者,这可能会限制研究结果的推广性。未来的研究可以探索个性化热舒适控制系统,以及室内运动场所舒适度优化与能源效率之间的协同作用。
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
Building Simulation
Building Simulation THERMODYNAMICS-CONSTRUCTION & BUILDING TECHNOLOGY
CiteScore
10.20
自引率
16.40%
发文量
0
审稿时长
>12 weeks
期刊介绍: Building Simulation: An International Journal publishes original, high quality, peer-reviewed research papers and review articles dealing with modeling and simulation of buildings including their systems. The goal is to promote the field of building science and technology to such a level that modeling will eventually be used in every aspect of building construction as a routine instead of an exception. Of particular interest are papers that reflect recent developments and applications of modeling tools and their impact on advances of building science and technology.
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