Dear Colleagues,

Sustainable development is of primary importance as the key to future use and management of finite world resources. Sustainable development is a way of organizing society so that it can exist in the long term, considering the needs of the present without compromising the ability of future generations to meet their own needs. Green Engineering is defined as the design, commercialization, and use of processes and products, which are feasible and economical, while minimizing the generation of pollution at the source and the risk to human health and the environment. 

Green Chemistry and Chemical Engineering is a subset of Green Engineering. The goals of Green Chemistry and Green Chemical Engineering are usually achieved with the use of renewable raw materials and eco-friendly solvents along with “green” product design and impact including safety, sustainability, degradation and recyclability. Furthermore, benign synthesis and catalysis, solvent-free processes, process design and intensification, as well as energy use issues are of crucial importance in the manufacturing of green and sustainable materials.

Green Engineering is a broad field including various topics such as new eco-friendly and safe chemicals, methods and techniques for developing environmentally friendly novel materials, new industrial technologies, separation engineering, solvent-free processes, green solvents, process design, process intensification, clean processing and utilization of fossil resources, naturally occurring materials and biomaterials, man-made materials and chemicals, food science, water sources, water protection, toxicology, packaging industries and their impact on environment, environmental engineering, transportation, construction, sustainable construction materials, green building, zero energy buildings, building information modelling, green city and sustainable development, cloud- and green IoT-based technology for sustainable smart cities, daily consumer goods, electronics, photonics, optics, machinery, microbiology, biomedical industries, energy conservation, rural and urban development, pollution, biomass and biorefinery, bioprocesses and bioengineering, industrial ecology, renewable energy technologies, energy storage and network, clean energy and bioenergy, biofuels, biobased materials, biopolymers and composites, hybrid materials, novel materials and devices, processing technologies, nanoscience and nanotechnology, simulation, integration, safety and assessment, new energy harvesting materials and systems, solar energy materials, solar cells and photovoltaic devices, effect of electromagnetic radiation on human health, simulation tools for sustainable environment (especially electromagnetic, and acoustic), impact of pollution on the environment, biohazards, safe medicine, green science in pharmaceuticals, biotechnology, modeling and optimization of applications of engineering sciences to medicine and biology, degradation, CO₂ capture, storage, and utilization, recycling and circular economy, life cycle analysis, engineering in bioeconomy, experiences on teaching environmentally safe engineering, among others.

The aim of this Special Issue is to highlight the progress on the topics of green engineering, from energy efficiency and sustainability to biobased chemicals and plastics from renewable resources.

Prof. Dr. George Z. Papageorgiou
Prof. Dr. Maria Foundi
Dr. George N. Nikolaidis
Guest Editors

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• eco-friendly and safe chemicals
• solvent-free processes
• green solvents
• process engineering
• process intensification
• clean processing of fossil resources
• biomass and biorefinery
• biobased materials and biomedical materials
• energy storage
• biofuels
• green science in pharmaceuticals
• biotechnology
• degradation
• CO₂ capture
• water sources
• toxicology
• environmental engineering
• transportation
• sustainable construction materials
• zero energy buildings
• sustainable smart cities
• rural and urban development
• renewable energy
• novel materials and devices
• nanoscience and nanotechnology
• simulation tools for sustainable environment
• solar cells and photovoltaic devices
• pollution and biohazards
• recycling and circular economy
• life cycle analysis
• engineering in bioeconomy