Influence of Weather Factors on Thermal Comfort in Subtropical Urban Environments

Huang, Chiung-Wei; Tsai, Hsin-Hua; Chen, Hung-chen

doi:10.3390/su12052001

Cited by 39 publications

(22 citation statements)

References 60 publications

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“…The seasons in Taiwan are divided into four. Winter runs from December to February, spring is from March to May, summer is from June to August, and autumn is from September to November [39], which is demonstrated from the data in Figure 5. This also shows that the summer season had the highest total irradiation and average module temperature, while the autumn season had the lowest.…”

Section: Evaluating the Performance Of Dmusmentioning

confidence: 73%

Performance Evaluation of Solar PV Power Plants in Taiwan Using Data Envelopment Analysis

Mariano

Liao

2021

Energies

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Due to the worldwide impact of industrialization, renewable sources of energy from solar play a huge role in supplying the domestic demand in Taiwan. This paper aims to impart an unbiased performance evaluation of different solar photovoltaic (PV) power plants around Taiwan. This study utilized data envelopment analysis (DEA) using the epsilon-based measure (EBM) model to compute the performance efficiency and ranking of the solar PV power plants. Additionally, the model is used for its advantage of combined radial and non-radial measures to achieve a more precise measure of efficiency. The results show that among nine selected solar PV plants, the top-performing DMU was I (8200051) from the southern part of Taiwan. Therefore, this study recommends that EBM can be a useful tool to evaluate the performance of solar PV power plants using multiple inputs and outputs. Additionally, this study will contribute to sustaining and developing the existing solar PV power capacity while achieving the installation of 20GW of solar energy as part of Taiwan’s goal. Even though the study has achieved the set goals, various restrictions remain present. Future studies could address micro and macro-level factors that influence the performance of solar PV power plants, which are not included in this study.

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Section: Evaluating the Performance Of Dmusmentioning

confidence: 73%

Performance Evaluation of Solar PV Power Plants in Taiwan Using Data Envelopment Analysis

Mariano

Liao

2021

Energies

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“…The ability of urban dwellers to adapt to varying thermal environments largely depends on the external meteorological conditions. However, considering temperature variations alone may not provide a comprehensive picture of the threats posed by heat stress; ambient relative humidity must also be considered as it influences the evaporation of sweat, which helps to naturally maintain human comfort levels (Huang et al., 2020; Qaid et al., 2016). Air temperatures between 18°C and 23°C and relative humidity (RH) levels between 35% and 70% are considered to be the comfortable ranges for livability (Höppe, 1999; Lin et al., 2010).…”

Section: Introductionmentioning

confidence: 99%

Analysis of Outdoor Thermal Discomfort Over the Kingdom of Saudi Arabia

et al. 2021

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“…Based on relevant studies in Taiwan, relative humidity has a significant impact on apparent temperature, especially in subtropical regions. Higher relative humidity in cold weather makes people feel it is colder than the actual temperature ( 28 ), which may in turn lead to increased heater usage. One study in Romania also revealed direct association between humidity and the CO concentration in the environment ( 29 ).…”

Section: Discussionmentioning

confidence: 99%

Quantifying the Effects of Climate Factors on Carbon Monoxide Poisoning: A Retrospective Study in Taiwan

Wang

Shao

Chang

et al. 2021

Front. Public Health

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Background: Carbon monoxide (CO) poisoning is the leading cause of poisoning death worldwide, but associations between CO poisoning and weather remain unclear.Objective: To quantify the influence of climate parameters (e.g., temperature, relative humidity, and wind speed) on the incidence risk of acute CO poisoning in Taiwan.Methods: We used negative binomial mixed models (NBMMs) to evaluate the influence of weather parameters on the incidence risk of acute CO poisoning. Subgroup analyses were conducted, based on the seasonality and the intentionality of acute CO poisoning cases.Results: We identified a total of 622 patients (mean age: 32.9 years old; female: 51%) with acute CO poisoning in the study hospital. Carbon monoxide poisoning was associated with temperature (beta: −0.0973, rate ratio (RR): 0.9073, p < 0.0001) but not with relative humidity (beta: 0.1290, RR: 1.1377, p = 0.0513) or wind speed (beta: −0.4195, RR: 0.6574, p = 0.0806). In the subgroup analyses, temperature was associated with the incidence of intentional CO poisoning (beta: 0.1076, RR: 1.1136, p = 0.0333) in spring and unintentional CO poisoning (beta: −0.1865, RR: 0.8299, p = 0.0184) in winter.Conclusion: Changes in temperature affect the incidence risk for acute CO poisoning, but the impact varies with different seasons and intentionality in Taiwan. Our findings quantify the effects of climate factors and provide fundamental evidence for healthcare providers to develop preventative strategies to reduce acute CO poisoning events.

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Influence of Weather Factors on Thermal Comfort in Subtropical Urban Environments

Cited by 39 publications

References 60 publications

Performance Evaluation of Solar PV Power Plants in Taiwan Using Data Envelopment Analysis

Performance Evaluation of Solar PV Power Plants in Taiwan Using Data Envelopment Analysis

Analysis of Outdoor Thermal Discomfort Over the Kingdom of Saudi Arabia

Quantifying the Effects of Climate Factors on Carbon Monoxide Poisoning: A Retrospective Study in Taiwan

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