Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes


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1st Edition

Also covers the impact of globalization on regulation and quality approaches as well as supply chain integrity. Students taking graduate version complete additional assignments. Love, A. Sinskey, S. Relation of long standing scientific and philosophic problems in the field of energy to 21st-century debates. Topics include the development of thermodynamics and kinetic theories, the foundation of the scientific project, the classical view of energy, and the harnessing of nature. Key texts and controversies form topics of weekly writing assignments and term papers.

Trout, A. Builds an understanding of key debates scientific, ethical, and political. Aims to inform solutions to key problems related to procurement of energy and environmental degradation. Topics address alternative energy technologies and fossil fuel utilization and emissions, especially carbon dioxide, carbon dioxide sequestration, and geoengineering.

Assignments include weekly analyses of readings, videos and related engineering calculations in addition to a final project. Limited to Focuses on foundational works and their significance for the choices that engineers make, both as students and as practicing engineers. Each semester, different works and topics, based on current and perennial issues in ethics and engineering, will be chosen in order to explore facets of the extremely complex and varied subject of the place of engineering for the individual and society.

Examples of topics include genetic engineering and what it means to be human, artificial intelligence and thought, the scope and limits of engineering, and engineering and freedom. May be repeated for credit with permission of instructor. Trout, D. Doneson No textbook information available. Lecture: TBA Explores the various interconnections between society and engineering as expressed in a variety of media: speech, visualization, art and music, and writing. Analysis of foundational texts and art together with case studies form the basis for students' weekly assignments.

Topics include the connection between the engineering project and society, the significance of artificial intelligence, evolution, social bias, and relativism of thought and culture. Includes oral and written presentations. Schiappa, B. Begins with discussion of Warren K. Lewis on culture and civilization, in addition to other chemical engineering luminaries, Rutherford Aris and John Prausnitz, and Sam Florman.

Following their leads, seminar addresses key developments in Greek culture, followed by Renaissance culture, and culminating with contemporary culture. Discusses the influence of chemical engineering throughout the term, but focuses on broader cultural understanding as advocated by Lewis and Aris. Weekly meetings and study question responses are complemented with direct experience of culture and its connection to engineering. Includes guests with various expertise in culture and chemical engineering. Solutions require application of fundamental concepts of mass and energy conservation to batch and continuous systems involving chemical and biological processes.

Problem-solving exercises distributed among lectures and recitation. Johnston, K. Prather Textbooks Fall Applications of first, second, and third laws of thermodynamics to open and closed systems. Properties of mixtures, including colligative properties, chemical reaction equilibrium, and phase equilibrium; non-ideal solutions; power cycles; refrigeration; separation systems. Gleason, H. Includes topics in statistical mechanics, molecular description of gases and liquids, property estimation, description of equilibrium and dynamic properties of fluids from molecular principles, and kinetics of activated processes.

Also covers some basic aspects of molecular simulation and applications in systems of engineering interest. Rutledge, P. Topics: analysis of process chemistry by p-pathways i. Use of reaction mechanisms for inference of co-product formation, kinetics, and equilibria: process synthesis logic related to reaction selectivity, recycle, separations.

Illustrations drawn from current and contemplated commercial practice. Students work in teams on one project for the term. Projects often suggested by local industry. Includes training in project planning and project management, execution of experimental work, data analysis, oral presentation, individual and collaborative report writing. Colton, B. Johnston, B. Burrell, G. Preference to Energy Studies minors. Utilize concepts from many fields, such as, chemical and electrical engineering, and biology. Student teams work through parallel modules spanning microbial fermentation and animal cell culture.

With the bioreactor at the core of the experiments, students study cell metabolism and biological pathways, kinetics of cell growth and product formation, oxygen mass transport, scale-up and techniques for the design of process control loops. Introduces novel bioreactors and powerful analytical instrumentation. Downstream processing and recombinant product purification also included. Credit cannot also be received for Enrollment limited. Hamel No textbook information available. Course utilizes online learning technologies and simulations in addition to traditional lab experiments.

Covers resources, extraction, conversion, and end-use technologies, with emphasis on meeting 21st-century regional and global energy needs in a sustainable manner. Examines various renewable and conventional energy production technologies, energy end-use practices and alternatives, and consumption practices in different countries.

MSc courses

Investigates their attributes within a quantitative analytical framework for evaluation of energy technology system proposals. Emphasizes analysis of energy propositions within an engineering, economic and social context. Limited to juniors and seniors. Golay Textbooks Fall Stress in a fluid. Conservation of mass and momentum, using differential and integral balances. Elementary constitutive equations. Exact solutions of the Navier-Stokes equations. Approximate solutions using control volume analysis. Mechanical energy balances and Bernoulli's equation.

Dimensional analysis and dynamic similarity. Introduces boundary-layer theory and turbulence. Doyle, F. Steady and transient conduction and diffusion. Radiative heat transfer. Convective transport of heat and mass in both laminar and turbulent flows. Emphasis on the development of a physical understanding of the underlying phenomena and upon the ability to solve real heat and mass transfer problems of engineering significance. Manthiram, K.

Chung Textbooks Fall Studies the effect of structural and energetic disorder, wave-like vs. Emphasizes quantitative analysis, including the Boltzmann transport equation, Einstein relation, Wiedemann-Franz law, and Marcus electron transfer theory. Also addresses percolation theory and the connection to energy conversion technologies, such as solar cells, thermoelectrics, and LEDs. Staged cascades. Applications to distillation, absorption, adsorption, and membrane processes.

Use of material balances, phase equilibria, and diffusion to understand and design separation processes. Uses techniques and software for simulation, data analysis and visualization. Continuum, mesoscale, atomistic and quantum methods used to study fundamental and applied problems in physics, chemistry, materials science, mechanics, engineering, and biology. Examples drawn from the disciplines above are used to understand or characterize complex structures and materials, and complement experimental observations. Buehler, R. Topics: numerical linear algebra, solution of nonlinear algebraic equations and ordinary differential equations, solution of partial differential equations e.

All methods are presented within the context of chemical engineering problems. Familiarity with structured programming is assumed. Green, J. Swan Textbooks Fall Presents applications of microbial processes for production of commodity and specialty chemicals and biofuels in addition to mammalian cell cultures for production of biopharmaceuticals. Derivation of rate expressions from reaction mechanisms and equilibrium or steady state assumptions. Design of chemical and biochemical reactors via synthesis of chemical kinetics, transport phenomena, and mass and energy balances.

Stephanopoulos, Y. Analysis of energy conversion and storage in thermal, mechanical, chemical, and electrochemical processes in power and transportation systems, with emphasis on efficiency, performance, and environmental impact. Applications to fuel reforming and alternative fuels, hydrogen, fuel cells and batteries, combustion, catalysis, combined and hybrid power cycles using fossil, nuclear and renewable resources. CO 2 separation and capture. Biomass energy. Ghoniem, W. Examines various energy technologies in each fuel cycle stage for fossil oil, gas, synthetic , nuclear fission and fusion and renewable solar, biomass, wind, hydro, and geothermal energy types, along with storage, transmission, and conservation issues.

Analysis of energy conversion and storage in thermal, mechanical, chemical, and electrochemical processes in power and transportation systems, with emphasis on efficiency, performance and environmental impact. Meets with 2. Application to transient open and closed systems. Criteria of stability and equilibria. Constitutive property models of pure materials and mixtures emphasizing molecular-level effects using the formalism of statistical mechanics.

Phase and chemical equilibria of multicomponent systems. Applications emphasized through extensive problem work relating to practical cases. Blankschtein Textbooks Fall Topics include a comparative analysis of various sources of capital; templates to identify the optimal investor; legal frameworks, US and offshore, of the investment process and its related jargon; an introduction to understanding venture capital as a business; and market practice and standards for term sheet negotiation.

Emphasizes strategy as well as tactics necessary to negotiate and build effective, long-term relationships with investors, particularly venture capital firms VCs. Loessberg, D. Regulatory issues include quality by design and process analytical technologies of unit operations, such as crystallization, filtration, drying, milling, blending, granulation, tableting and coating.

Also covers principles of formulation for solid dosage forms and parenteral drugs. Surveys analysis and design of electrochemical reactions and processes by integrating chemical engineering fundamentals with knowledge from diverse fields, including chemistry, electrical engineering, and materials science. Includes applications to fuel cells, electrolyzers, and batteries.

Theory of capillarity. Experimental determination of surface and interfacial tensions. Thermodynamics of interfaces. The Gibbs adsorption equation.

Charged interfaces. Surfactant adsorption at interfaces. Insoluble monolayers. Curvature effects on the equilibrium state of fluids. Nucleation and growth. Fundamentals of wetting and contact angle. Adhesion, cohesion, and spreading. Wetting of textured surfaces.


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Super-hydrophilic and super-hydrophobic surfaces. Self-cleaning surfaces. Covers enhanced sampling, ab initio molecular dynamics, and transition-path-finding approaches as well as errors and accuracy in total and free energies. Discusses applications such as the study and prediction of properties of chemical systems, including heterogeneous, molecular, and biological catalysts enzymes , and physical properties of materials. Kulik No textbook information available. Lodish, L. Covers nano- and micro drug delivery systems, including polymer-drug conjugates, protein therapeutics, liposomes and polymer nanoparticles, viral and non-viral genetic therapy, and tissue engineering.

Previous coursework in cell biology and organic chemistry recommended. Subject covers modeling the static and dynamic behavior of processes; control strategies; design of feedback, feedforward, and other control structures; model-based control; applications to process equipment. Provides an introduction to the basic thermodynamic language used for describing the structure of materials, followed by a survey of the scattering, microscopy and spectroscopic techniques for structure and morphology characterization. Applies these concepts to a series of case studies illustrating the diverse structures formed in soft materials and the common length, time and energy scales that unify this field.

For students interested in studying polymer science, colloid science, nanotechnology, biomaterials, and liquid crystals. Olsen No textbook information available. Examples: solution polymerization of acrylamide, bead polymerization of divinylbenzene, interfacial polymerization of nylon 6, Evaluation of networks by tensile and swelling experiments.

Rheology of polymer solutions and suspensions. Physical properties of natural and silicone rubber. Preference to Course 10 seniors and juniors. Love, D. Anderson No textbook information available. Emphasizes use of catalysis for environmentally benign and sustainable chemical processes. Lectures address concepts in catalyst preparation, catalyst characterization, quantum chemical calculations, and microkinetic analysis of catalytic processes. Shows how experimental and theoretical approaches can illustrate important reactive intermediates and transition states involved in chemical reaction pathways, and uses that information to help identify possible new catalysts that may facilitate reactions of interest.

Draws examples from current relevant topics in catalysis. Includes a group project in which students investigate a specific topic in greater depth. Emphasis on the integration of fundamental concepts with approaches in process design, and on problems that demand synthesis, economic analysis, and process design; consideration of safety analysis, process dynamics and the use of process simulators and related tools to approach such problems.

The specific application of these fundamental concepts will vary each term, and may include chemical, electrochemical, pharmaceutical, biopharmaceutical biologic or related processes, operated in batch, semi-batch, continuous or hybrid mode. May be repeated once for credit with permission of instructor. Johnston, Y. Roman Textbooks Fall Emphasizes the integration of fundamentals with material property estimation, process control, product development, and computer simulation. Integration of societal issues, such as engineering ethics, environmental and safety considerations, and impact of technology on society are addressed in the context of case studies.

See departmental website for individual ICE-T module descriptions. Jensen, Geo. Lecture: MWF10 , Chemical engineering problems presented and analyzed in an industrial context. Stephanopoulos No textbook information available. Jensen, R. Topics include a historical overview of vaccines and immunotherapies, the molecular design considerations for new immunotherapies and adjuvants, the economic challenges for process development and manufacturing of immunotherapies, and new technologies for designing and assessing therapies. Case studies to cover topics for specific diseases. Topics include conduction and diffusion, laminar flow regimes, convective heat and mass transfer, and simultaneous heat and mass transfer with chemical reaction or phase change.

Deen, M. Bazant Textbooks Fall Content includes kinematics, macroscopic balances for linear and angular momentum, the stress tensor, creeping flows and the lubrication approximation, the boundary layer approximation, linear stability theory, and some simple turbulent flows. Kinematics and material functions for complex fluids; techniques of viscometry, rheometry; and linear viscoelastic measurements for polymeric fluids.

Generalized Newtonian fluids.

Outros livros do autor

Continuum mechnanics, frame invariance, and convected derivatives for finite strain viscoelasticity. Differential and integral constitutive equations for viscoelastic fluids. Analytical solutions to isothermal and non-isothermal flow problems; the roles of non-Newtonian viscosity, linear viscoelasticity, normal stresses, elastic recoil, stress relaxation in processing flows.

Introduction to molecular theories for dynamics of polymeric fluids. Extensive class project and presentation required instead of a final exam. Armstrong, G. Kinematics and dynamics of two-phase flows. Steam separation. Boiling, instabilities, and critical conditions. Single-channel transient analysis. Multiple channels connected at plena.

Loop analysis including single and two-phase natural circulation. Subchannel analysis. Baglietto, M. Topics include structure of tissues and the molecular basis for macroscopic properties; chemical and electrical effects on mechanical behavior; cell mechanics, motility and adhesion; biomembranes; biomolecular mechanics and molecular motors.

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MSc courses - DTU Chemical Engineering

Experimental methods for probing structures at the tissue, cellular, and molecular levels. Kamm, K. Van Vliet. Covers methods for measuring, modeling, and manipulating systems, including biophysical experimental tools, computational modeling approaches, and molecular design.

Equips students to take systematic and quantitative approaches to the investigation of a wide variety of biological phenomena. Jasanoff, E. Fraenkel No textbook information available. Fluid and solid continua: equations of motion useful for porous, hydrated biological tissues. Electromechanical and physicochemical interactions in cells and biomaterials; musculoskeletal, cardiovascular, and other biological and clinical examples. Prior undergraduate coursework in transport recommended. Bathe, A. Grodzinsky Textbooks Fall Two major areas will be explored: the process of gene expression, including protein-DNA interactions, chromatin dynamics, and the stochastic nature of gene expression; and cell signaling systems, especially those that lead to or rely on intracellular protein gradients.

This class is intended for graduate students or advanced undergraduates with some background in cell biology, transport, and kinetics.

Introduction to Chemical Reaction Engineering - Chemical Engineering

An introductory class in probability is recommended. Mathematical representations of microbial systems. Kinetics of growth, death, and metabolism. Continuous fermentation, agitation, mass transfer, and scale-up in fermentation systems, enzyme technology. Analysis of cell-level processes in terms of underlying molecular mechanisms based on thermodynamics, kinetics, mechanics, and transport principles, emphasizing an engineering, problem-oriented perspective. Objective is to rationalize target selection for genetic engineering and evaluate the physiology of recombinant cells.

Topics include cell metabolism and energy production, transport across cell compartment barriers, protein synthesis and secretion, regulation of gene expression, transduction of signals from extracellular environment, cell proliferation, cell adhesion and migration. Basic concepts of ensemble theory formulated on the basis of thermodynamic fluctuations. Luis A. Strategy for the development and characterization of environmental friendly emulsions by microfluidization technique.

Journal of Cleaner Production , , Chris L. Gillies, Ian M. McLeod, Heidi K. Australian shellfish ecosystems: Past distribution, current status and future direction. Christopher L. Kitchens, Lindsay Soh. Green Engineering. Sagar M. Kapadiya, Jigisha Parikh, Meghal A. A greener approach towards isolating clove oil from buds of Syzygium aromaticum using microwave radiation. Industrial Crops and Products , , Microplastic: What Are the Solutions?.

Supercritical Fluids in Green Technologies. Angela Serpe.

Green Chemical Engg Book

Paola Deplano on the occasion of her retirement.. Evaluation method for process intensification alternatives. Coles, Mallikarjuna N. Nadagouda, Rajender S. Varma, Kerry Kirwan. Co-constructive development of a green chemistry-based model for the assessment of nanoparticles synthesis. European Journal of Operational Research , 2 , Paulo A. Enhancing innovation through behavioral stimulation: The use of behavioral determinants of innovation in the implementation of eco-innovation processes in industrial sectors and companies.

Francisco J. New perspectives for green and sustainable chemistry and engineering: Approaches from sustainable resource and energy use, management, and transformation. Carbon dioxide and ethanol from sugarcane biorefinery as renewable feedstocks to environment-oriented integrated chemical plants.. Stephen M. Malone, Abigail R. Cohen, Bert Bras, Marc Weissburg. Procedia CIRP , 69 , Jan Krzysztoforski, Marek Henczka.

The Journal of Supercritical Fluids , ,, Gregory Chatel. How sonochemistry contributes to green chemistry?. Ultrasonics Sonochemistry , 40 , Enhancing reaction rate in a Pickering emulsion system with natural magnetotactic bacteria as nanoscale magnetic stirring bars. Chemical Science , 9 9 , An ionic liquid gel: a heterogeneous catalyst for Erlenmeyer—Plochl and Henry reactions. New Journal of Chemistry , 42 13 , Environmentally sustainable biogenic fabrication of AuNP decorated-graphitic g-C 3 N 4 nanostructures towards improved photoelectrochemical performances.

RSC Advances , 8 25 , Musyoka, Henrietta W. Langmi, Mkhulu Mathe, Shijun Liao. Review on the current practices and efforts towards pilot-scale production of metal-organic frameworks MOFs. Coordination Chemistry Reviews , , From basic research to applied solutions: are two approaches to sustainability science emerging?. Current Opinion in Environmental Sustainability , 29 , Green recovery of potassium and aluminum elements from alunite tailings using gradient leaching process.

Life cycle assessment and sustainable engineering in the context of near net shape grown components: striving towards a sustainable way of future production. Managing offshore drill cuttings waste for improved sustainability. Alif Duereh, Richard Lee Smith. Boris Worm, Heike K. Plastic as a Persistent Marine Pollutant. Annual Review of Environment and Resources , 42 1 , Doris Dallinger, C. Oliver Kappe. Why flow means green — Evaluating the merits of continuous processing in the context of sustainability. Current Opinion in Green and Sustainable Chemistry , 7 , Arka Pandit, Elizabeth A.

James, Joshua P. Newell, Marc Weissburg, Michael E. Infrastructure ecology: an evolving paradigm for sustainable urban development. Journal of Cleaner Production , , SS An investigation of the most important factors for sustainable product development using evidential reasoning. Numerical Algebra, Control and Optimization , 7 4 , George M. The quadruple bottom line: the advantages of incorporating Green Chemistry into the undergraduate chemistry major.

Nanoparticles surface treatment on cemented materials for inhibition of bacterial growth. Construction and Building Materials , , Sustainability Defined. An Introduction to Ionic Liquids. Packaging Technology and Science , 30 8 , Dailyn Guzm? European Polymer Journal , 93 , Justin A. Lummiss, Peter D. Morse, Rachel L. Beingessner, Timothy F. The Chemical Record , 17 7 , Angela D. Lueking, Milton W. Energy and mass balances related to climate change and remediation.

Science of The Total Environment , , Julia Gro? ChemSusChem , 10 12 , Miguel Herrero, Jose A. Gas expanded liquids and switchable solvents. Current Opinion in Green and Sustainable Chemistry , 5 , Moussa Sehailia, Smain Chemat. Green Solvents for Edible Oils Extraction. Vivian W. Tam, Sepani Senaratne, Khoa N. Chethana S. Life-cycle cost analysis of green-building implementation using timber applications.

Synthesis of pyrano[2,3-c]pyrazoles by ionic liquids under green and eco-safe conditions. Research on Chemical Intermediates , 43 2 , Gerbaud, M. Teles Dos Santos, N. Pandya, J. Computer aided framework for designing bio-based commodity molecules with enhanced properties. Chemical Engineering Science , , Biodiesel production by the methylic-alkaline and ethylic-enzymatic routes: Discussion of some environmental aspects. Environmental challenges of the chlor-alkali production: Seeking answers from a life cycle approach. Alexei A. Lapkin, Polina Yaseneva. Yujie Zhang, Marc A.

Green Emulsion Polymerization Technology. Mark Anthony Camilleri. Palghat A. Benjamin C. Ramachandran, R. Sustainable Reactor Design. Introduction to Green and Sustainable Chemistry. Isela Lavilla, Carlos Bendicho. Fundamentals of Ultrasound-Assisted Extraction. Decision rules for energy consumption minimization during material removal process in turning.

Green Chemistry , 19 6 , Vadivelu, S. Sugirdha, P. Dheenkumar, Y. Arun, K. Karthikeyan, C. Solvent-free implementation of two dissimilar reactions using recyclable CuO nanoparticles under ball-milling conditions: synthesis of new oxindole-triazole pharmacophores. Green Chemistry , 19 15 , Metal-catalyzed enyne cycloisomerization in natural product total synthesis. Darryl B. Improving oxidation efficiency through plasma coupled thin film processing. RSC Adv. Mohamed Marzouk, Mostafa El-hawary, , , , , , ,. Towards evaluation and prediction of building sustainability using life cycle behaviour simulation.

Alexander W. Bassett, Daniel P. Rogers, Joshua M. Sadler, John J. La Scala, Richard P. Wool, Joseph F. The effect of impurities in reactive diluents prepared from lignin model compounds on the properties of vinyl ester resins. Zimmerman, James R. More than Target 6. Engineering , 2 4 , Sabbie A. Miller, Paulo J. Monteiro, Claudia P. Ostertag, Arpad Horvath. Concrete mixture proportioning for desired strength and reduced global warming potential.

Ian C. Lyons, Karl R. Terminology to support manufacturing process characterization and assessment for sustainable production. Eco-friendly one pot synthesis of caffeic acid phenethyl ester CAPE via an in-situ formed deep eutectic solvent. Sustainable Chemistry and Pharmacy , 4 , Chapter 3 Green Chemistry and Green Engineering. Mining consumer experiences of repairing electronics: Product design insights and business lessons learned. Journal of Industrial and Engineering Chemistry , 43 , Eliana Mozo-Reyes, Jenna R.

Jambeck, Patricia Reeves, Kyle Johnsen. Will they recycle? Design and implementation of eco-feedback technology to promote on-the-go recycling in a university environment. Resources, Conservation and Recycling , , Ahmad Galadima, Oki Muraza. A review on glycerol valorization to acrolein over solid acid catalysts. Journal of the Taiwan Institute of Chemical Engineers , 67 , Mauro Cordella, Carme Hidalgo. Analysis of key environmental areas in the design and labelling of furniture products: Application of a screening approach based on a literature review of LCA studies.

Sustainable Production and Consumption , 8 , Greener solvent systems for copper wire-mediated living radical polymerisation. Green Materials , 4 3 , Development of a recombinant d-mannose isomerase and its characterizations for d-mannose synthesis. International Journal of Biological Macromolecules , 89 , Yang Shen, Chi Lo, D. Minerals Engineering , 94 , Connecting the philosophy of chemistry, green chemistry, and moral philosophy.

Foundations of Chemistry , 18 2 , Zhang, Rao Y. Surampalli, Rajeshwar D. Nanomaterials for Sustainable Society. Sean A.

Special order items

Hinchcliffe, Kristen M. Hess, Wil V. Experimental and theoretical investigation of prestressed natural fiber-reinforced polylactic acid PLA composite materials. Composites Part B: Engineering , 95 , Jean Vanden Eynde. Pharmaceuticals , 9 2 , Idris, G. Chua, M. Incorporating potential environmental impact from water for injection in environmental assessment of monoclonal antibody production.

Chemical Engineering Research and Design , , An environmental comparison of biocomposite film based on orange peel-derived pectin jelly-corn starch and LDPE film: LCA and biodegradability. New perspectives for sustainable resource and energy use, management and transformation: approaches from green and sustainable chemistry and engineering.

Nicharee Wisuthiphaet, Suchada Chanprateep Napathorn. Optimisation of the use of products from the cane sugar industry for poly 3-hydroxybutyrate production by Azohydromonas lata DSM in fed-batch cultivation. Process Biochemistry , 51 3 , Chemie Ingenieur Technik , 88 , Environmentally benign and highly regioselective ring opening of epoxides accelerated by ultrasound irradiation.

Green Chemistry Letters and Reviews , 9 1 , Alessandro Gandini, Talita M. Angelo Albini, Stefano Protti. Process Intensification in Organic Synthesis. David J. Green Chemistry and Sustainability. Kelly Cobb, Belinda Orzada. Constable, M. Gonzalez, S. Separations Versus Sustainability. Papadokonstantakis, P. Karka, Y. Kikuchi, A. Hydroesterification of methyl undecenoate in thermomorphic multicomponent solvent systems—Process development for the synthesis of sustainable polymer precursors.

Chemical Engineering and Processing: Process Intensification , 99 , Highly integrated reactor—separator systems for the recycling of homogeneous catalysts. Directions for instilling economic and environmental sustainability across product supply chains. Investigation of the effect of treatment with supercritical carbon dioxide on structure and properties of polypropylene microfiltration membranes.

Materials Letters , , Nicole K. Parthenopoulou, Michail Malindretos. Combining Forces for High Performance Structures1. Materials Today: Proceedings , 3 3 , Separation and Purification Technology , , Pedro Cintas. Ultrasonics Sonochemistry , 28 , Life cycle assessment of multi-step rufinamide synthesis — from isolated reactions in batch to continuous microreactor networks. Green Chemistry , 18 4 , Bio-renewable enantioselective aldol reaction in natural deep eutectic solvents. Green Chemistry , 18 6 , Elsje Alessandra Quadrelli. Green Chemistry , 18 2 , Green synthesis of nanoscale zero-valent iron using a grape seed extract as a stabilizing agent and the application for quick decolorization of azo and anthraquinone dyes.

RSC Advances , 6 27 , Efficient hydrolysis of cellulose into glucose over sulfonated polynaphthalene SPN and rapid determination of glucose using positive corona discharge ion mobility spectrometry. RSC Advances , 6 10 , Meadows, Alexei A. Continuous flow Buchwald—Hartwig amination of a pharmaceutical intermediate. Functionalization of mesoporous materials for lanthanide and actinide extraction. Dalton Transactions , 45 38 , Simple and green switchable dispersive liquid—liquid microextraction of cadmium in water and food samples.

RSC Advances , 6 34 , Optimization of a green emulsion stability by tuning homogenization rate. RSC Advances , 6 62 , Sustainable waste mitigation: biotemplated nanostructured ZnO for photocatalytic water treatment via extraction of biofuels from hydrothermal carbonization of banana stalk. RSC Advances , 6 95 , Ana Aguiar-Ricardo, Vasco D. Supercritical carbon dioxide design strategies: from drug carriers to soft killers.

Metrics for sustainability analysis of post-combustion abatement of CO2 emissions: Microalgae mediated routes and CCS carbon capture and storage. Energy , 92 , Authors' Reply to the Letter to the Editor: Reply to "Non green perspective on biodegradable polymer nanocomposites". Brazilian Journal of Chemical Engineering , 32 4 , Assessment of Sustainability within Holistic Process Design. The chronic effects of lignin-derived bisphenol and bisphenol A in Japanese medaka Oryzias latipes.

Aquatic Toxicology , DOI: Smith, D. Sengupta, S. Takkellapati, C. An industrial ecology approach to municipal solid waste management: II. Case studies for recovering energy from the organic fraction of MSW. Shyam R. Asolekar, R. Gopichandran, Anand M. Hiremath, Dinesh Kumar. AIChE Journal , 61 10 , The extraction of bioactive compounds from food residues using microwaves.

Current Opinion in Food Science , 5 , Joshua D. Environmental concern and environmental purchase intentions: The mediating role of learning strategy. Journal of Business Research , 68 9 , Molecules , 20 9 , Phosphorus, Sulfur, and Silicon and the Related Elements , 7 , Hafiz M. Macromolecular Materials and Engineering , 7 , Front Matter.

Catherine Azzaro-Pantel. Green Process Engineering Design Methodology. Multifunctional Reactors. Kate M. Campbell, Tanya J. Gallegos, Edward R. Biogeochemical aspects of uranium mineralization, mining, milling, and remediation. Applied Geochemistry , 57 , Jian Tang, Xuezheng Liang. Highly efficient procedure for biodiesel synthesis using polypyrrole functionalized by sulfonic acid. Kinetics and Catalysis , 56 3 , Erin F. MacDonald, Jinjuan She. Seven cognitive concepts for successful eco-design. Journal of Cleaner Production , 92 , Oisik Das, Ajit K.

Sarmah, Debes Bhattacharyya. A sustainable and resilient approach through biochar addition in wood polymer composites. John A. Christ, Jeffrey L. Heiderscheidt, Monica Y. Pickenpaugh, Thomas J. Phelan, James B. Pocock, Matthew S. Stanford, Gregory E. Seely, Patrick C. Suermann, Troy M. The effects of combined catalysis of oxalic acid and seawater on the kinetics of xylose and arabinose dehydration to furfural. International Journal of Energy and Environmental Engineering , 6 1 , D'Hondt, M. Eppink, L. Garcia-Gonzalez, K. Elst, R. Cell disruption for microalgae biorefineries. Biotechnology Advances , 33 2 , Atiq Uz Zaman.

A comprehensive review of the development of zero waste management: lessons learned and guidelines. Journal of Cleaner Production , 91 , Carmita Camposeco-Negrete. Optimization of cutting parameters using Response Surface Method for minimizing energy consumption and maximizing cutting quality in turning of AISI T6 aluminum. Arno Behr, Andreas J. Vorholt, Thomas Seidensticker. ChemBioEng Reviews , 2 1 , Perlite: A cheap natural support for immobilization of sulfonic acid as a heterogeneous solid acid catalyst for the heterocyclic multicomponent reaction.

Journal of Molecular Catalysis A: Chemical , , Abigail Clarke, John K. Fabrice Gallou. Eric H. Dunlop, A. Kimi Coaldrake, Cory S. Silva, Warren D. Ivy Shiue. Ecosystems and human well-being in the transition towards green engineering and economy. Ecological Engineering , 74 , Sylvia O. Nwosu, Jay C. Schleicher, Aaron M. Kinetics and polarity effects in the synthesis of the ionic liquid, 1-hexylmethyl-imidazolium bromide, using compressed CO2.

The Journal of Supercritical Fluids , 96 , Environmental assessment of a bottom-up hydrolytic synthesis of TiO 2 nanoparticles. Green Chemistry , 17 1 , Laurens, N. Nagle, R. Davis, N. Sweeney, S. Van Wychen, A. Lowell, P. Acid-catalyzed algal biomass pretreatment for integrated lipid and carbohydrate-based biofuels production. Green Chemistry , 17 2 , Marco Cinelli, Stuart R. A green chemistry-based classification model for the synthesis of silver nanoparticles. Green Chemistry , 17 5 , Paul J. Withers, James J. Schipper, Kimo C.

Greening the global phosphorus cycle: how green chemistry can help achieve planetary P sustainability. Green Chemistry , 17 4 , A new, sustainable LaFeO 3 material prepared from biowaste-sourced soluble substances. New Journal of Chemistry , 39 2 , Carbonaceous microspheres prepared by hydrothermal carbonization of glucose for direct use in catalytic dehydration of fructose. RSC Advances , 5 23 , Daniele Cespi, Evan S. Beach, Thomas E. Swarr, Fabrizio Passarini, I. Vassura, Peter J. Dunn, Paul T. Life cycle inventory improvement in the pharmaceutical sector: assessment of the sustainability combining PMI and LCA tools.

Green Chem. In situ development of self-defensive antibacterial biomaterials: phenol-g-keratin-EC based bio-composites with characteristics for biomedical applications. Green Chemistry , 17 7 , Pedro Lozano, Juana M. Isabel Burguete, Santiago V. Sponge-like ionic liquids: a new platform for green biocatalytic chemical processes. Iker Del Rosal, Iann C. Gerber, Romuald Poteau, Laurent Maron. New Journal of Chemistry , 39 10 , TiO 2 -coated magnetite nanoparticle-supported sulfonic acid as a new, efficient, magnetically separable and reusable heterogeneous solid acid catalyst for multicomponent reactions.

RSC Advances , 5 57 , Magnetic nanoparticle-supported imidazole tribromide: a green, mild, recyclable and metal-free catalyst for the oxidation of sulfides to sulfoxides in the presence of aqueous hydrogen peroxide. RSC Advances , 5 66 , Zahra Daneshfar, Ali Rostami. Cellulose sulfonic acid as a green, efficient, and reusable catalyst for Nazarov cyclization of unactivated dienones and pyrazoline synthesis.

RSC Advances , 5 , Avinash A. Chaugule, Amol R. Jadhav, Hern Kim. Polyvinyl trisulfonate ethylamine based solid acid catalyst for the efficient glycosylation of sugars under solvent free conditions. Ocampo-Velazquez, Juan F. Garcia-Trejo, Ramon G. BioMed Research International , , Geert Letens. Frontiers of Engineering Management , 2 1 , ChemCatChem , 6 12 , ChemSusChem , 7 12 , One-step preparation of carbonaceous solid acid catalysts by hydrothermal carbonization of glucose for cellulose hydrolysis.

Catalysis Communications , 57 , Masoumeh Zakeri, Mohamed M. Nasef, Ebrahim Abouzari-Lotf. Eco-safe and expeditious approaches for synthesis of quinazoline and pyrimidineamine derivatives using ionic liquids aided with ultrasound or microwave irradiation. Journal of Molecular Liquids , , Xuezheng Liang. International Journal of Green Energy , 11 9 , International scientists' priorities for research on pharmaceutical and personal care products in the environment.

Integrated Environmental Assessment and Management , 10 4 , Eduardo J. Cavanagh, Mariano J. Savelski, C. Stewart Slater. Optimization of environmental impact reduction and economic feasibility of solvent waste recovery using a new software tool. Chemical Engineering Research and Design , 92 10 , Sustainable Water Management. Introduction to Sustainability. Rational selection of alternative, environmentally compatible surfactants for biotechnological production of pharmaceuticals-A step toward green biotechnology.

Environmental Toxicology and Chemistry , 33 9 , Enzyme encapsulation in silica gel prepared by polylysine and its catalytic activity. Applied Surface Science , , Sylvain Caillol. Metrics for Sustainability Assessment of Chemical Processes. ChemSusChem , 7 7 , Sathicq, Gustavo P. Catalysis Letters , 7 , Keiski, Ane Urtiaga. Purification techniques for the recovery of valuable compounds from acid mine drainage and cyanide tailings: application of green engineering principles.

Rudra Narayan Das, Kunal Roy. Predictive modeling studies for the ecotoxicity of ionic liquids towards the green algae Scenedesmus vacuolatus. Chemosphere , , Amy L. Ethier, Emily C. Hart, Steven R. Saunders, Elizabeth J. Biddinger, Ali Z. Eckert, Charles L. Reversible ionic surfactants for gold nanoparticle synthesis. Green Materials , 2 2 , Research and Technology Directions.

Environmental management practices and engineering science: A review and typology for future research. Integrated Environmental Assessment and Management , 10 2 , Ruiz-Mercado, Michael A. Gonzalez, Raymond L. Clean Technologies and Environmental Policy , 16 4 , David E. Meyer, Venkata K. The use of life cycle tools to support decision making for sustainable nanotechnologies.

Collaborative simulation and scientific big data analysis: Illustration for sustainability in natural hazards management and chemical process engineering. Computers in Industry , 65 3 , An Overview of Methods and Standards. Enhancement of reaction rates for catalytic benzaldehyde hydrogenation and sorbitol dehydration in water solvent by addition of carbon dioxide. Journal of Chemical Sciences , 2 , Chinese Journal of Chemical Engineering , 22 3 , David L.

Minnick, Aaron M. Vapor—liquid equilibrium in the production of the ionic liquid, 1-hexylmethylimidazolium bromide [HMIm][Br] , in acetone. Fluid Phase Equilibria , , Optimization of process parameters using a Response Surface Method for minimizing power consumption in the milling of carbon steel.

Journal of Cleaner Production , 66 , Jeffrey B. Processes , 2 1 , Chemistry - A European Journal , 20 6 , Chemical enterprise model and decision-making framework for sustainable chemical product design. Computers in Industry , DOI: Meyer, Michael A. Melanie Carrico, Victoria Kim. Expanding zero-waste design practices: a discussion paper.

Huantian Cao, Richard P. Development and evaluation of apparel and footwear made from renewable bio-based materials. Synthesis, characterization and acid catalysis of solid acid from peanut shell. Applied Catalysis A: General , , In silico design of bio-based commodity chemicals: application to itaconic acid based solvents.

Eco-friendly solvents and amphiphilic catalytic polyoxometalate nanoparticles: a winning combination for olefin epoxidation. A nano-sized solid acid synthesized from rice hull ash for biodiesel production. Green Chemistry , 16 3 , RSC Advances , 4 39 , Sandro Olveira, Simon P. Forster, Stefan Seeger. Nanocatalysis: Academic Discipline and Industrial Realities. Journal of Nanotechnology , , Bonita Costigane, Peter Guthrie. Mired in the meaning: sustainability in consultancy. Proceedings of the Institution of Civil Engineers - Engineering Sustainability , 6 , Patrick S.

Barber, Chris S. Angewandte Chemie , 47 , Angewandte Chemie International Edition , 52 47 , Implementation of an eco-innovative separation process for a cleaner chromium passivation in the galvanic industry. Journal of Cleaner Production , 59 , Tam, S. Andreas R.

Departments and Centres

Challenges for eco-design of emerging technologies: The case of electronic textiles. Highly ordered three dimensional macroporous carbon spheres and their acid catalytic properties. Solid State Sciences , 24 , Tam, L. Shen, Jorge Ochoa. Microscopic analysis of recycled paper effect on print quality parameters. Microscopy Research and Technique , 76 9 , A review on combustion synthesis intensification by means of microwave energy.

Chemical Engineering and Processing: Process Intensification , 71 , ChemSusChem , 6 8 , Kanokphorn Sangkharak, Poonsuk Prasertsan. A conceptual model for assisting sustainable manufacturing through system dynamics. ChemSusChem , 6 5 , Greener pharmacy using solvent-free synthesis: Investigation of the mechanism in the case of dibenzophenazine. Powder Technology , , Kinetics and Catalysis , 54 3 , Marta C. A methodology for screening of microalgae as a decision making tool for energy and green chemical process applications.

Clean Technologies and Environmental Policy , 15 2 , Jose A. Green Foodomics. Sriram, L.

Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes
Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes
Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes
Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes
Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes
Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes

Related Green Chemical Engineering: An Introduction to Catalysis, Kinetics, and Chemical Processes



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