Xinyi Xie scite author profile

Xinyi Xie

3Publications

11Citation Statements Received

0Citation Statements Given

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Affiliations

Nanjing Forestry University, Wuhan Institute of Technology

Publications

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Exploring Influential Factors of Free-Floating Bike-Sharing Usage Frequency before and after COVID-19

Xie

et al. 2023

Sustainability

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In order to better understand the impact of COVID-19 on the free-floating bike-sharing (FFBS) system and the potential role of FFBS played in the pandemic period, this study explores the impact mechanism of travel frequency of FFBS users before and after the pandemic. Using the online questionnaire collected in Nanjing, China, we first analyze the changes of travel frequency, travel distance, and travel duration in these two periods. Then, two ordered logit models are applied to explore the contributing factors of the weekly trip frequency of FFBS users before and after COVID-19. The results show that: (1) While the overall travel duration and travel distance of FFBS users decreased after the pandemic, the trip frequency of FFBS users increased as the travel duration increased. (2) Since COVID-19, attitude perception variables of the comfort level and the low travel price have had significantly positive impacts on the weekly trip frequency of FFBS users. (3) Respondents who use FFBS as a substitution for public transport are more likely to travel frequently in a week after the outbreak of COVID-19. (4) The travel time in off-peak hours of working days, weekends, and holidays has a significantly positive correlation with the trip frequency of FFBS users. Finally, several relevant policy recommendations and management strategies are proposed for the operation and development of FFBS during the similar disruptive public health crisis.

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A study on new air supply terminals in mine fires

Li¹,

Yang²,

Liu³

et al. 2017

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Design of an Intelligent Purification and Disinfection Apparatus for Air Conditioning Units

Duan

Xie

et al. 2021

J. Phys.: Conf. Ser.

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With the sudden outbreak and rapid spread of COVID-19, global economic development and social stability have been seriously affected. The virus mainly spreads infection among people on a large scale through the air. People are gradually focusing on how to use HVAC system, so that it can play a more efficient and positive role in epidemic prevention and control. Consequently, we designed an intelligent purification and disinfection apparatus for air-conditioning units. The apparatus integrates rapid virus detection and high-efficiency disinfection functions. It uses a modular design and different operating modes for different levels of epidemic periods. This apparatus is not only suitable for daily life, but also can meet the prevention and control requirements during the epidemic period, which takes the economy, energy saving, and environmental protection into account.

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Xinyi Xie

Exploring Influential Factors of Free-Floating Bike-Sharing Usage Frequency before and after COVID-19

A study on new air supply terminals in mine fires

Design of an Intelligent Purification and Disinfection Apparatus for Air Conditioning Units

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