Global trends of municipal solid waste research from 1997 to 2014 using bibliometric analysis

This study uses a bibliometric approach to identify global trends related to the municipal solid waste (MSW). It applies related literature in the Science Citation Index Expanded (SCI-EXPANDED), Social Sciences Citation Index (SSCI), Conference Proceedings Citation Index - Science (CPCI-S) and Conference Proceedings Citation Index - Social Science & Humanities (CPCI-SSH), retrieved from the ISI Web of Science. The data used covers the period from 1997 to 2014. Analyzed aspects included document type, and publication output as well as distribution of journals, subject category, countries, institutions, title-words, author keywords, and keywords plus. An evaluating indicator, citation score, was applied to characterize the MSW publications. The research outputs of MSW had steadily increased in the field of energy fuels, engineering chemical and biotechnology applied microbiology, especially environmental sciences and engineering environmental. The predominance of Chinese institutions in terms of article count and a predominance of industrialized countries’ institutions in terms of citation score were compared. Finally, author keywords, words in title, and keywords plus were analyzed to provide research emphasis, with the developing trends and recent hotspots provided. Implications: A systematic overview of scientific literature dealing with municipal solid waste (MSW) is provided by a bibliometric analysis. The analysis of author keywords helps in drawing the research trends in a special perspective. Research studies on food waste, life cycle assessment (LCA), and renewable energy tend to be a new research focus in the area of MSW. The conclusions could provide a reference to the decision making and policy of MSW management for the government to some extent.

[1]  W. Ng,et al.  Bioconversion of food waste to energy : a review , 2014 .

[2]  Mohd Ali Hassan,et al.  Food waste and food processing waste for biohydrogen production: a review. , 2013, Journal of environmental management.

[3]  Shabbir H Gheewala,et al.  LCA: a decision support tool for environmental assessment of MSW management systems. , 2008, Journal of environmental management.

[4]  Umberto Arena,et al.  Advanced aspects of thermal treatment of solid wastes: from a flue gas to a fuel gas technology? , 2012, Waste management.

[5]  Pradip Bhattacharyya,et al.  Municipal Solid Waste Generation, Composition, and Management: The World Scenario , 2012 .

[6]  A Karagiannidis,et al.  Waste biomass-to-energy supply chain management: a critical synthesis. , 2010, Waste management.

[7]  P. He,et al.  Pyrolysis technologies for municipal solid waste: a review. , 2014, Waste management.

[8]  Yuh-Shan Ho,et al.  A Bibliometric Study of the Trend in Articles Related to Risk Assessment Published in Science Citation Index , 2010 .

[9]  Gjalt Huppes,et al.  Life cycle assessment of municipal solid waste management with regard to greenhouse gas emissions: case study of Tianjin, China. , 2009, The Science of the total environment.

[10]  Afton Halloran,et al.  Addressing food waste reduction in Denmark , 2014 .

[11]  Julian Cleary,et al.  Life cycle assessments of municipal solid waste management systems: a comparative analysis of selected peer-reviewed literature. , 2009, Environment international.

[12]  Xiao Zhang,et al.  A bibliometric analysis of anaerobic digestion for methane research during the period 1994–2011 , 2013 .

[13]  Guohe Huang,et al.  Multistage stochastic inexact chance-constraint programming for an integrated biomass-municipal solid waste power supply management under uncertainty , 2015 .

[14]  Per Capita,et al.  About the authors , 1995, Machine Vision and Applications.

[15]  Yuh-Shan Ho,et al.  A bibliometric and citation analysis of stroke-related research in Taiwan , 2007, Scientometrics.

[16]  Thed N. van Leeuwen,et al.  The application of bibliometric analyses in the evaluation of social science research. Who benefits from it, and why it is still feasible , 2006, Scientometrics.

[17]  Eugene Garfield,et al.  KeyWords Plus™—algorithmic derivative indexing , 1993 .

[18]  Lie Yang,et al.  Research output analysis of municipal solid waste: a case study of China , 2013, Scientometrics.

[19]  L. Lombardi,et al.  Analysis of energy recovery potential using innovative technologies of waste gasification. , 2012, Waste management.

[20]  B. Ruj,et al.  Technological aspects for thermal plasma treatment of municipal solid waste—A review , 2014 .

[21]  Stefano Consonni,et al.  Waste gasification vs. conventional Waste-to-Energy: a comparative evaluation of two commercial technologies. , 2012, Waste management.

[22]  A Bernstad Saraiva Schott,et al.  Food waste minimization from a life-cycle perspective. , 2015, Journal of environmental management.

[23]  Soon Keat Tan,et al.  Municipal solid waste management in China: status, problems and challenges. , 2010, Journal of environmental management.

[24]  J la Cour Jansen,et al.  Review of comparative LCAs of food waste management systems--current status and potential improvements. , 2012, Waste management.

[25]  Andrea Corti,et al.  A review of technologies and performances of thermal treatment systems for energy recovery from waste. , 2015, Waste management.

[26]  Jing Zhang,et al.  Assessment of world aerosol research trends by bibliometric analysis , 2008, Scientometrics.

[27]  Özgür Aktaş,et al.  Addition of activated carbon to batch activated sludge reactors in the treatment of landfill leachate and domestic wastewater , 2001 .

[28]  P Moulin,et al.  Landfill leachate treatment: Review and opportunity. , 2008, Journal of hazardous materials.

[29]  Lie Yang,et al.  Global trends of solid waste research from 1997 to 2011 by using bibliometric analysis , 2012, Scientometrics.

[30]  Wei Wang,et al.  Pilot-scale anaerobic co-digestion of municipal biomass waste: Focusing on biogas production and GHG reduction , 2012 .

[31]  Umberto Arena,et al.  Process and technological aspects of municipal solid waste gasification. A review. , 2012, Waste management.

[32]  Umberto Arena,et al.  Gasification: an alternative solution for waste treatment with energy recovery. , 2011, Waste management.

[33]  Haitao Huang,et al.  Development of plasma pyrolysis/gasification systems for energy efficient and environmentally sound waste disposal , 2013 .

[34]  Xingbao Gao,et al.  Effect of thermal pretreatment on the physical and chemical properties of municipal biomass waste. , 2012, Waste management.

[35]  Ni-Bin Chang,et al.  Solid waste management in European countries: a review of systems analysis techniques. , 2011, Journal of environmental management.

[36]  Lan Yao,et al.  Publication trends and knowledge maps of global translational medicine research , 2013, Scientometrics.

[37]  Yuh-Shan Ho,et al.  A bibliometric analysis of world volatile organic compounds research trends , 2010, Scientometrics.

[38]  Yuh-Shan Ho,et al.  A bibliometric analysis of the performance of Water Research , 2010, Scientometrics.

[39]  Jerry D. Murphy,et al.  Technical, economic and environmental analysis of energy production from municipal solid waste , 2004 .

[40]  Haibin Chen,et al.  A bibliometric investigation of life cycle assessment research in the web of science databases , 2014, The International Journal of Life Cycle Assessment.

[41]  Yong Geng,et al.  An overview of municipal solid waste management in China. , 2010, Waste management.

[42]  A. Ledin,et al.  Present and Long-Term Composition of MSW Landfill Leachate: A Review , 2002 .

[43]  Thomas Malkow,et al.  Novel and innovative pyrolysis and gasification technologies for energy efficient and environmentally sound MSW disposal. , 2004, Waste management.

[44]  S. Grimberg,et al.  Anaerobic digestion of food waste through the operation of a mesophilic two-phase pilot scale digester--assessment of variable loadings on system performance. , 2015, Bioresource technology.

[45]  L. Bettencourt,et al.  Evolution and structure of sustainability science , 2011, Proceedings of the National Academy of Sciences.