BMC Chemical Engineering: an open access publishing venue for the chemical engineering community
- 223 Downloads
This editorial accompanies the launch of BMC Chemical Engineering, a new addition to the BMC Series. The journal follows the BMC Series ethos of being fully open access and making editorial decisions based on scientific validity and quality rather than perceived interest or impact. The scope of the journal is broad, considering fundamental and applied research in all areas of chemical engineering with the ultimate aim of providing an inclusive, community-focussed venue to ensure that the most relevant chemical engineering research is disseminated widely for all to read and build upon.
Chemical Engineering is a broad, multidisciplinary field that encompasses many traditional scientific and engineering principles and applies them to the development of new chemical, biological and materials processes and products.
The American Institute of Chemical Engineers (AIChE) recently held their 2018 Annual Meeting in Pittsburgh with a theme of ‘Chemical Engineering: Today, Tomorrow & Leading the Future’. A number of engaging talks explored how chemical engineering has changed as a discipline over the past 10, 50, 100 years. In a time of moving away from siloed fields towards breaking down discipline barriers and encouraging multidisciplinary collaboration, questions were raised about the relevance of the field of chemical engineering. The argument was made by several highly experienced and respected academics and industrialists that chemical engineering is really a boundary-less subject. The principle elements of chemical engineering, such as thermodynamics, material and energy balances, heat and mass transfer, applied chemistry and physics, and separations are solid; they remain as relevant and important today as they were a hundred years ago, but the applications have certainly changed. New expertise in data analytics, machine learning, systems and synthetic biology and sustainability are being brought into the sphere of chemical engineering to better develop processes and products.
Chemical engineering is also playing a major role in helping to achieve the sustainable development goals set by the United Nations . From bio-based sustainable production of chemicals and materials to machine learning-based design and synthesis of new materials and pharmaceuticals, chemical engineering disciplines will be essential to make them work. Biotechnology, nanotechnology, information technology, and environmental technology are all being integrated into traditional chemical engineering to solve the world’s most important problems including climate change and energy-water-food security, while ensuring sustainable production and supply of the chemicals and materials we use every day.
BMC Chemical Engineering aims to follow this principle of interdisciplinarity. Whilst it is divided into 6 sections that ground the journal in chemical engineering fundamentals, BMC Chemical Engineering welcomes research into new applications of these concepts and their integration with emerging themes such as data science. This editorial outlines in detail the scope of each section and how the journal aims to serve the chemical engineering community.
Aims and scope
In a time of increasing momentum towards open research in many fields that have in the past been more reluctant to adopt this ethos, BMC, being a pioneer in open access within the biomedical sciences, is expanding its scope and applying its expertise in open research to the physical sciences and engineering. BMC Chemical Engineering is one of the first new journals in the BMC Series to publish in a field outside biology and medicine, although chemical engineering has strong connections and overlap with the biomedical sciences. The journal will make all of the articles fully open access immediately upon publication, under the Creative Commons CC-BY licence .
BMC Chemical Engineering considers research in all areas of chemical engineering, including fundamental and applied research in chemical, biological and materials processing across a broad range of industries. Chemical engineers have a significant part to play in tackling some of the greatest global challenges. For example, in the least developed counties in the world, 30% of people do not have access to ‘improved water’, being piped, spring, well, or rainwater sources , so chemical engineers are developing low-cost, point of use water treatment systems  and advanced membrane water purification technologies . Chemical engineers are also integrating emerging fields and tools in order to further advance their discoveries and achieve their engineering goals. For example, additive manufacturing is being applied to the chemical industry to develop microfluidic reactors and 3D printed catalytic surfaces , and big data analytics has the potential to dramatically affect the way research is conducted . BMC Chemical Engineering therefore particularly welcomes research related to finding solutions to the future global challenges identified by the Royal Academy of Engineering in 2008, which have been modified and built upon by many but which still remain very much relevant to this day . It also welcomes interdisciplinary work integrating, for example, data analytics, new manufacturing processes and the principles of sustainability.
BMC Chemical Engineering will publish chiefly core research articles and reviews in each of the six journal sections, including conceptual, theoretical and computational research. We are delighted to welcome Robert Field, Rafiqul Gani, Adam Lee, Hyunjoo Lee, Jay Lee and Gongping Liu as Section Editors for the Journal , together with our international team of Editorial Board Members and Editorial Advisors . The aims and scope of each section  are outlined in detail here.
Process design, optimization and intensification
fundamental work on process and product systems engineering
process monitoring and optimization
multifunctionality and intensification of process operation
Reaction engineering and catalysis
new reactor design including heat control
preparation, characterization, deactivation and regeneration of homogeneous and heterogeneous catalysts
electrocatalysts for fuel cell or water electrolyzers
photocatalysts for photoelectrochemical devices or artificial photosynthesis.
heat and mass transfer (single phase and multiphase flow)
transport related aspects of separation processes
unit operations such as absorption, adsorption and membrane processes
Given our comprehensive aim, both fundamental and applied papers are welcome.
Separation and purification processes
hybrid separation processes
Plant design, management and control
To make products in the chemical industry, process units need to be developed and connected as a flowsheet. The synthesis of reaction paths, specification of unit operations, their connections, and overall flowsheet design fall into the scope of “plant design”. Plants, once designed, must be operated economically, safely, and sustainably through careful scheduling, optimization, and control.
Sustainable process/plant design and operation methods
Big data based modelling and optimization
Integration of enterprise-wide planning and supply chain with process operation under uncertainty
Development of new modelling and optimization methods and their applications using math programming and reinforcement learning.
Model-based optimal control by combining off- and on-line optimization
Process trend monitoring and fault detection/diagnosis using AI tools like Deep Neural Networks.
The plant design, management and control section of BMC Chemical Engineering aims to be the forum to discuss the new and latest developments in design, operation, and control of chemical and biological plants in the era of artificial intelligence and the 4th industrial revolution. We believe that the key lies in how these new breeds of technologies and information become blended and incorporated into the current paradigm of first principles based modelling, simulation, and optimization. Doing so will enable us to meet outstanding challenges by addressing more relevant issues and problems, currently limited by the lack of sufficient fundamental knowledge and computational efficiency.
Sustainable chemical and biochemical processes
alternative solvents and feedstocks
clean catalytic technologies for atom-efficient synthesis or environmental remediation (including tandem chemo-bio routes)
high-throughput and additive chemical manufacturing
renewable energy technologies (including biomass valorisation)
life-cycle and techno-economic assessments
Original contributions should highlight new aspects of chemical engineering in the design, application and/or optimisation of novel or existing academic or commercial processes, emphasising improved sustainability metrics wherever possible. Critical reviews and perspectives on topical challenges in sustainable chemical/biochemical processes are also sought.
BMC Chemical Engineering launches with two open calls for papers for themed article collections. These are in the areas of 2D membranes and CO2 transformation. Both of these topics were suggested by Section Editors of the journal for the interesting and relevant developments that are being made at present.
New applications for 2D materials are being discovered all the time and research into their use as membranes for gas and liquid separations has attracted a great deal of interest. Our collection ‘2D material membranes for gas and liquid separation’ aims to gather state-of-the-art research on 2D membranes, to highlight their potential but also the importance of continued advancement in materials development, separation performance and module and process design.
The second collection focusses on the conversion of CO2 to value-added products. The relevance of this to balancing the carbon cycle and preventing climate change are clear, but the thermodynamic challenges are also great. Our collection ‘CO2 transformation to produce value-added products’ welcomes work on the development of any process or system for the transformation of CO2.
BMC Chemical Engineering will provide a unique, inclusive and authoritative venue for the latest developments in the chemical engineering field. Being fully open access will allow the research to be disseminated more quickly and more widely, ultimately with the aim of advancing research development.
We hope that you will find the first published articles interesting and valuable, and we look forward to working closely with our authors, editors and reviewers to ensure this journal is a valuable resource for the chemical engineering community.
Availability of data and materials
HM and SL wrote the introduction, aims and scope and conclusion. RF, RG, AL, HL, JL and GL and wrote the editorial sections. All authors read and approved the final version of the manuscript.
HM is the Editor of BMC Chemical Engineering and an employee of Springer Nature. RF, RG, AL, HL, JL, GL and SL are members of the Editorial Board of BMC Chemical Engineering.
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
- 1.UN Sustainability Goals. Available: https://www.un.org/sustainabledevelopment/sustainable-development-goals/.
- 2.Creative Commons Attribution License, Creative Commons Attribution License. [Online]. Available: http://creativecommons.org/licenses/by/4.0/.
- 3.UNICEF. Progress on Sanitation and Drinking Water. 2015 Update and MDG Assessment. Available https://www.unicef.org/publications/index_82419.html.
- 5.Lee A, Elam JW, Darling SB. Membrane materials for water purification: design, development, and application. Environ Sci: Water Res Technol. 2016;2:17–42.Google Scholar
- 8.NAE Grand Challenges for Engineering. National Academy of Engineering; 2008. Available http://www.engineeringchallenges.org/File.aspx?id=11574&v=34765dff.
- 9.BMC Chemical Engineering Editor Profiles [Online]. Available https://bmcchemeng.biomedcentral.com/about/editorial-board/editor-profiles.
- 10.BMC Chemical Engineering Editorial Board [Online]. Available https://bmcchemeng.biomedcentral.com/about/editorial-board.
- 11.BMC Chemical Engineering Sections and Section scopes [Online]. Available https://bmcchemeng.biomedcentral.com/articles/sections1.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.