Knowledge mapping of energy research in the hospitality industry to evaluation research collaboration

被引:1
作者
Xu, Xiumei [1 ]
Liu, Kunmei [2 ]
机构
[1] Macao Polytech Univ, Sch Humanities & Social Sci, Macau 999078, Peoples R China
[2] Tibet Univ, Sch Educ, Lhasa 850000, Peoples R China
关键词
Research collaboration; Cooperation network; Bibliometrics; Visualization; Hospitality; Energy; AIR-COOLED CHILLERS; CARBON FOOTPRINT; HOTEL BUILDINGS; ELECTRICITY CONSUMPTION; CONSERVATION PRACTICES; EMERGING TRENDS; LIFE-CYCLE; PERFORMANCE; SECTOR; GREEN;
D O I
10.1016/j.heliyon.2023.e16591
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Analyzing collaborations on energy research in the hotel industry has important implications for promoting the research performance in this field. The Web of Science Core Collection from 1984 to 2022 was used to analyze the research contributions and cooperation networks and clusters at three levels: macro (national level), meso (institutional level), and micro (key authors and papers) using a bibliometric approach. The results show the following. (1) The cooperative relationship is the closest between China and the United States. Developed countries in Europe exhibit more academic cooperation. (2) There is a significant regional imbalance in the cooperation between universities. Leading universities rely on their strengths in energy research or hotel management and are often highly productive institutions. (3) The breadth of the authors' cooperation is insufficient. Collaborative research dominated by productive authors tends to focus on practical issues in the local hotel industry. The collaboration between experts from different disciplines benefits from the complementary advantages of these experts. (4) Hotel energy research has evolved from single-disciplinary research in the early days to interdisciplinary research in recent years. This paper provides visualizations of current conditions and deficiencies in existing research collaborations and provides a reference for analyzing the potential of research cooperation.
引用
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页数:17
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共 85 条
[71]   Energy consumption quota of four and five star luxury hotel buildings in Hainan province, China [J].
Xin, Yajuan ;
Lu, Shilei ;
Zhu, Neng ;
Wu, Wei .
ENERGY AND BUILDINGS, 2012, 45 :250-256
[72]   Success factors of energy performance contracting (EPC) for sustainable building energy efficiency retrofit (BEER) of hotel buildings in China [J].
Xu, Pengpeng ;
Chan, Edwin Hon-Wan ;
Qian, Queena Kun .
ENERGY POLICY, 2011, 39 (11) :7389-7398
[73]   Reinterpreting the theory of planned behavior and its application to green hotel consumption intention [J].
Yeh, Shih-Shuo ;
Guan, Xinhua ;
Chiang, Tai-Ying ;
Ho, Juei-Ling ;
Huan, Tzung-Cheng Tc .
INTERNATIONAL JOURNAL OF HOSPITALITY MANAGEMENT, 2021, 94
[74]   The Analysis on Carbon Footprint of Catering Products in High-star Hotels during Operation: Based on Investigation Conducted in parts of High-star Hotels in Ji'nan [J].
Yi Liqin .
2010 INTERNATIONAL CONFERENCE ON ENERGY, ENVIRONMENT AND DEVELOPMENT (ICEED2010), 2011, 5 :890-894
[75]   Optimal operational planning of cogeneration systems with thermal storage by the decomposition method [J].
Yokoyama, R ;
Ito, K .
JOURNAL OF ENERGY RESOURCES TECHNOLOGY-TRANSACTIONS OF THE ASME, 1995, 117 (04) :337-342
[76]   Operational strategy of a cogeneration system under a complex utility rate structure [J].
Yokoyama, R ;
Ito, K .
JOURNAL OF ENERGY RESOURCES TECHNOLOGY-TRANSACTIONS OF THE ASME, 1996, 118 (04) :256-262
[77]   Strategy for designing more energy efficient chiller plants serving air-conditioned buildings [J].
Yu, F. W. ;
Chan, K. T. .
BUILDING AND ENVIRONMENT, 2007, 42 (10) :3737-3746
[78]   Improved energy performance of air-cooled chiller system with mist pre-cooling Mist improvement on air-cooled chillers [J].
Yu, F. W. ;
Chan, K. T. .
APPLIED THERMAL ENGINEERING, 2011, 31 (04) :537-544
[79]   Economic benefits of improved condenser features for air-cooled chillers serving an air-conditioned hotel [J].
Yu, FW ;
Chan, KT .
APPLIED THERMAL ENGINEERING, 2006, 26 (10) :1063-1073
[80]   Energy signatures for assessing the energy performance of chillers [J].
Yu, FW ;
Chan, KT .
ENERGY AND BUILDINGS, 2005, 37 (07) :739-746