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 CHEMICAL ENGINEERING TRANSACTIONS  
 

VOL. 65, 2018 

A publication of 

 
The Italian Association 

of Chemical Engineering 
Online at www.aidic.it/cet 

Guest Editors: Eliseo Ranzi, Mario Costa 
Copyright © 2017, AIDIC Servizi S.r.l. 
ISBN 978-88-95608- 62-4; ISSN 2283-9216 

Mapping the Research on Gasification to Syngas Production 
Using Scientometry Analysis from 2007 to 2017 

Guillermo Valencia Ochoa*a, Yulineth Cardenas Escorcia b, Alberto Albis Arrieta c 
a
 Universidad del Atlántico, Efficient Energy Management Research Group, Kaí, College of Engineering, Colombia 

b
 Universidad de la Costa. Barranquilla, Research Group in Energy Optimization, GIOPEN, Department of Energy,Colombia 

c 
Universidad del Atlántico , Bioprocess Research Group, College of Engineering, Colombia 

guillermoevalencia@mail.uniatlantico.edu.co 

A complete mapping of the research output of syngas from biomass gasification was developed using the 
citation data from 2007 to 2017, with the help of Web of Science (WoS) and HistCite, which is a software 
oriented to determinate the yearly research output, the ranking of countries and institutions according to the 
total location citation score (TLCS), and the list of journals and articles with the highest mean citations in the 
field. Results show the significant increase in the number of documents published on gasification for syngas 
production from biomass, during the studied 11-year period. The country and institution with the highest 
research output are the Republic of China and the University of Maryland, respectively. The more significant 
number of articles and the highest TLCS values came from developed countries such as China, USA and 
Italy, which have more research advantages in this field than developing countries. The top three outputs 
journals were International Journal of Hydrogen Energy, Fuel, and Applied Energy, being the same top three 
cited references. Articles published with higher TLCS values had a higher impact in the area of gasification to 
Syngas Production and played a relevant part in developing research trends in this topic. 

1. Introduction 

The continuous development of computational tools has dominated the growth in the number of articles and 
research carried out in recent years, due to this tools facilitate the process of publication and compiling 
research results, in addition to their compilation through databases (Robinson-Garcia et al., 2017). The study 
and collection of data on a specific topic are called bibliometric or scientometry, and is commonly used to 
measure the magnitude of research on any topic of interest (Juliani and de Oliveira, 2016),(Robert et al., 
2017). Bibliometric provides a statistical database of scientific works allowing to measure the evolution of 
number of publications by countries and institutions (Laengle et al., 2017),(Stand et al., 2017),(Sarmiento et 
al., 2017),(Manotas et al., 2017). This is how library professionals have developed, thanks to current 
technological facilities, bibliometric methods to explore the impact of any field of knowledge (Hajduk, 
2017),(Sempéré, 2017). Many areas of research use bibliometric techniques to examine the implications of 
their area, making quantitative and statistical analyses to describe publication patterns within a given field (Y. 
Zhang et al., 2017),(Zhong et al., 2016).  Researchers can use bibliometric assessment methods to determine 
the influence of a single author, to describe the relationship between two or more authors or works, to identify 
the pattern of publication and authorship, citations used for a subject, articles of most significant impact, etc., 
over a period of time (Zheng et al., 2017),(C.-C. Zhang et al., 2017),(Waltman, 2016).  
Bibliometric can be applied to the area of obtaining syngas from biomass, which has been shown to be a 
sustainable and viable energy resource. Safer has investigated the most efficient syngas composition to 
reduce irreversibilities (Safer et al., 2017), as well, Yao has developed a model to facilitate the optimization of 
the energy and economic viability of gasification systems concerning with biochar and syngas (Yao et al., 
2018). 
The main contribution of this work is to apply the techniques and computer resources of bibliometric to 
evaluate the research on the production of Syngas by gasification, quantifying the countries, journals, and 
institutions of higher study and the quality of scientific articles in the last ten years. 

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DOI: 10.3303/CET1865031

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Please cite this article as: Valencia Ochoa G., Cardenas Y., Albis Arrieta A.R., 2018, Mapping the research on gasification to syngas production 
using scientometry analysis from 2007 to 2017, Chemical Engineering Transactions, 65, 181-186  DOI: 10.3303/CET1865031 



2. Methodology 

2.1 Bibliometric Methods 

The bibliometric method allowed to reach a complete idea of the research related to syngas production by 
gasification, based on the representative properties of each article published in the main journals. The 
bibliometric analysis allowed a systematic treatment to quantitatively analyze scientific publications to detect 
particular research trends. Nowadays, the definition and application of bibliometric, scientometry and 
information science have not been delimited, but differences can be identified as explained by several authors 
(Siluo and Qingli, 2017),(Hood and Wilson, 2001),(Martin-Martin et al., 2016),(Sengupta, 1992). 
The bibliometric resources helped to explore, organize and analyze large amounts of historical information 
from research results, thus improving the identification of hidden trends that supported the decision-making. In 
this study, the information was obtained from the WoS repository of Thomson Routers, obtaining 278 results 
that included from each document the title, author, journal, references cited, words, year, type of document, 
language, institution, and country. 

2.2 H Index 

Jorge E. Hirch in 2005 proposed the H index as a method to evaluate the performance and footprint of 
scientists, academics, and the respective institutions, journals, and country, and it is pointed out as the H 
publications, with H citations for each scientist. The usefulness of this method in this work was to find the 
documents with the highest quality or impact on a large number of articles. In this article, the H index was 
used to study different countries, organizations, and journals according to the guidelines outlined above. 

2.3 Data sources 

The Institute for Scientific Information (ISI) WoS frecuently is used to search for high-quality or hard-to-reach 
scientific literature through public sources of information. WoS is an essential source of data for any 
bibliometric analysis, as it allows its users to access a large number of bibliographic databases that are not 
ordinarily accessible. 

2.4 Procedure 

The scienciometry study covers from information treatment until the generation of results, is necessary to 
organize scientist information into four steps to perform the bibliometric analysis correctly, and this procedure 
can be seen in Figure 1. 
 

 
 

Figure 1:  Process for performing bibliometric analysis   
 
In the first step, which corresponds to Searching, the search criteria such as keywords and equations are 
define, instance in which the source of information its chosen and then the database its downloaded. 
Subsequently, in the Exporting step, is possible to manage the databases to be transferred to the software 
Hiscite, where Analysis or Viewing is finally achieved with specific bibliometric indicators. 

3. Results and Discussions 

The amounts of the annual publications of the eight most productive countries were analyzed as shown in 
Figure 2. The People's Republic of China has had a remarkable growth in publications from 2007 to 2012, with 

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a significant decrease in the volume of publications during 2013, although it would again reach its maximum 
number of publications for 2016, being currently the leader in publications per year uninterruptedly since 2012. 
On the other hand, the United States had shown a notable decrease in production volume since 2010 until 
2015, when it significantly increased in this indicator. Similarly, Figure 2b shows the h-index of each country, 
where the leading countries, People's Republic of China and the United States stand out. Concerning to 
Figure 2a, we can appreciate the behavior of knowledge generation in People's Republic of China compared 
to that generated by the total of the eight countries exposed, where it is evident that from 2011 to 2016 
People's Republic of China has shown a constant growth in the publication of articles related to gasification to 
produce Syngas. The People's Republic of China (56 documents) published the largest number of articles 
among the eight countries, followed by the United States (41 documents), Italy (24 documents), South Korea 
(19 documents) and Japan (15 documents).  

 
Figure 2:  Number of publication, (a) the People's Republic of China, (b) Top eight countries   
 
Figure 3 shows the publication distribution on a world map, representing by color and circle, the number of 
publications and the impact factor in terms of a local citation indicator for the publications. Regarding a global 
citation indicator for the eight most productive countries. The United States of America and the People's 
Republic of China have the highest overall citation scores, 760 and 614 respectively. 

 

Figure 3:  Global distribution of publications  

 

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The 92 publications selected in this study from the five most impactful journals are related to fuel, energy, and 
technology. Figure 4a shows the number of articles published in the top five journals with the most 
publications over the years from 2007 to 2017, where the notable growth in the volume of publications issued 
by INTERNATIONAL JOURNAL OF HYDROGEN ENERGY in the last 7 years stands out, with a maximum 
limit of nine publications associated with the generation of syngas by gasification in 2013. Figure 4b shows the 
leading performance of the five most productive institutions in research related to the study topic from 2007 to 
2017. The University of Meryland ranks first in the ranking, having 3.59% of 278 jobs processed in the search, 
in turn has the highest overall total citation score with a value of 385. It is followed by the Chinese Academy of 
Sciences with 2.87% of the works, followed by the Petronas University of Technology with 2.87%. The ranking 
highlights that 3 of the most important institutions in terms of volume of publications are from the Asian 
continent and in turn have the highest total citation scores, which shows that although these countries have 
not had a constant amount of development of scientific work on this subject, they continue to remain at the top 
of the most cited publications. 

 

Figure 4: Number of publications, (a) per journal, (b) per institution 

Table 1 shows the top ten authors concerning the topic, with their respective number of publication, total local 
citation score TLCS and total global citation score TGCS. Gupta AK is the author with the highest number of 
publication, TLCS and TGCS, which evidence the high quality of their research and knowledge in the subject 
area.  

Table 1: Authors with more publications 

Author Recs TLCS TGCS 

Gupta AK 10 47 385 

Ahmed II 6 25 252 

Andre RN 6 21 136 

Pinto F 6 21 136 

Yusup S 6 11 71 

Hofbauer H 5 0 29 

Lee SJ 5 3 28 

Manenti F 5 1 20 

Molino A 5 4 83 

Nipattummakul N 5 16 199 
 
Table 2 shows the type of documents most frequently consulted about syngas gasification along with the 
number of publications, TLCS and TGCS in each document type. As is to be expected, the type of document 
most frequently used for disseminating progress on the subject is the articles, this affirms in a forceful way that 
this type of document is being the main source of information on the latest advances regarding topics of 
scientific and engineering interest. 

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Table 2: Study by sort of document 

Document Type Recs TLCS TGCS

Article 206 193 2444 

Proceedings Paper 39 7 84 
Article; 
Proceedings Paper 

16 22 291 

Review 8 11 187 
Article; 
Book Chapter 

3 0 2 

Meeting Abstract 3 0 0 

Correction 1 0 1 
 

4. Conclusions 

As result of current government policies in different countries, it is believed that the use and research related 
to the production of syngas from biomass is increasing significantly. Currently, eight countries contribute 
predominantly to this research, with production focusing on People's Republic of China followed by the United 
States, Italy, South Korea and Japan. The research papers were published in journals such as 
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, Fuel, Applied Energy, and Energy and Fuels, by the 
most widely published authors of the University of Meryland and the Chinese Academy of Sciences, which 
shows that People's Republic of China and east countries greatly promote research on the subject under 
study. 

Acknowledgments      

This research was supported by Engineering Faculty of Universidad del Atlántico. G. Valencia is supported by 
the Efficient Energy Management Research Group Kai, A. Albis works for the Bioprocess Research Group, 
and Y. Cardenas is supported by the GIOPEN Research Group from the Energy Department of Universidad 
de la Costa.  

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