Abstract
As of 2020, it has been 50 years since the publication of Fanger’s predictive model of thermal comfort that was designed for indoor environments and attention worldwide is directed at the COVID-19 pandemic and discussions around recommendations for these indoor environments. In this context, many environments and their occupants will suffer consequences related to thermal comfort due to the necessary indoor air changes. In bus cabins, the impact might be even greater, seeing that they are responsible for the mass transportation of people. Thus, this paper intends to review the studies on thermal comfort that analyzed bus cabin environments. It adapts the PRISMA methodology and, as a result, it includes 22 research papers published in journals. Among those, 73% focused on approaching the occupants’ thermal sensation, followed by fuel/energy economy (18%), and driver productivity (9%). The current state-of-the-art indicates that air temperature and air velocity were the parameters most employed by the included studies, but eight papers analyzed all six parameters of the standard models of thermal comfort. The most employed model of thermal comfort was Fanger’s, but there has not been an investigation that assesses its consistency in predicting the occupants’ thermal sensation in the explored environment. Nevertheless, the analyzed studies recommended constant air change inside closed buses or keeping them open to minimize adverse effects on the occupants’ health, especially due to airborne diseases and CO2 concentration possibly being a suitable indicator to identify the need for air change.
Highlights
The city public transportation bus has the purpose of transporting numerous people and is considered a sustainable means of transportation [1,2,3]
Having selected the theme, centered on the aspects related to thermal comfort in bus cabin environments, the efforts turned to define the research intention, guided by the following research questions (RQ)
The results revealed that the passengers on the aisle seats with the curtains closed felt comfortable, as shown by the indices of Predicted Mean Vote (PMV) = −0.43 and people dissatisfied (PPD) < 10%
Summary
The city public transportation bus has the purpose of transporting numerous people and is considered a sustainable means of transportation [1,2,3]. The studies about comfort in buses may encompass the knowledge areas of thermal, acoustic, luminous, vibration, air quality, acceleration, and ergonomic comfort [4,5], and the influence of those areas might reflect on the level of service and the passengers’ choice to use this means of transportation [6,7,8]. Thermal comfort has been regarded as one of the most significant factors for the passengers’ comfort level [9,10]. The level perceived by the passengers was considered unsatisfactory and described in a field study conducted on buses with air conditioning during the night in China [11].
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