73 research outputs found
Optimisation of reverse osmosis based wastewater treatment system for the removal of chlorophenol using genetic algorithms
YesReverse osmosis (RO) has found extensive applications in industry as an efficient separation process in comparison with thermal process. In this study, a one-dimensional distributed model based on a wastewater treatment spiral-wound RO system is developed to simulate the transport phenomena of solute and water through the membrane and describe the variation of operating parameters along the x-axis of membrane. The distributed model is tested against experimental data available in the literature derived from a chlorophenol rejection system implemented on a pilot-scale cross-flow RO filtration system with an individual spiral-wound membrane at different operating conditions. The proposed model is then used to carry out an optimisation study using a genetic algorithm (GA). The GA is developed to solve a formulated optimisation problem involving two objective functions of RO wastewater system performance. The model code is written in MATLAB, and the optimisation problem is solved using an optimisation platform written in C++. The objective function is to maximize the solute rejection at different cases of feed concentration and minimize the operating pressure to improve economic aspects. The operating feed flow rate, pressure and temperature are considered as decision variables. The optimisation problem is subjected to a number of upper and lower limits of decision variables, as recommended by the module’s manufacturer, and the constraint of the pressure loss along the membrane length to be within the allowable value. The algorithm developed has yielded a low optimisation execution time and resulted in improved unit performance based on a set of optimal operating conditions
Environmental Technologies
This book on Environmental Technology takes a look at issues such as air, soil and noise pollution problems, environmental quality assessment, monitoring, modelling and risk as- sessment, environmental health impact assessment, environmental management and envi- ronmental technology development. It represents institutional arrangements, financial mechanisms and some sustainable technologies. The user can always count on finding both introductory material and more specific material based on national interests and problems. The user will also find ample references at the end of each chapter, if additional information is required. For additional questions or comments the user is encouraged to contact the author
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Modelling and optimisation of a multistage Reverse Osmosis processes with permeate reprocessing and recycling for the removal of N-nitrosodimethylamine from wastewater using Species Conserving Genetic Algorithms
YesThe need for desalinated seawater and reclaimed wastewater is increasing rapidly with the rising demands for drinkable water required for the world with continuously growing population. Reverse Osmosis (RO) processes are now among the most promising technologies used to remove chemicals from industrial effluents. N-nitrosamine compounds and especially N-nitrosodimethylamine (NDMA) are human carcinogens and can be found in industrial effluents of many industries. Particularly, NDMA is one of the by-products of disinfection process of secondary-treated wastewater effluent with chloramines, chlorines, and ozone (inhibitors). However, multi-stage RO processes with permeate reprocessing and recycling has not yet been considered for the removal of N-nitrosodimethylamine from wastewater. This research therefore, begins by investigating a number of multi-stage RO processes with permeate-reprocessing to remove N-nitrosodimethylamine (NDMA) from wastewater and finds the best configuration in terms of rejection, recovery and energy consumption via optimisation. For the first time we have applied Species Conserving Genetic Algorithm (SCGA) in optimising RO process conditions for wastewater treatment. Finally, permeate recycling is added to the best configuration and its performance is evaluated as a function of the amount of permeate being recycled via simulation. For this purpose, a mathematical model is developed based on the solution diffusion model, which is used for both optimisation and simulation. A number of model parameters have been estimated using experimental data of Fujioka et al. (Journal of Membrane Science 454 (2014) 212–219), so that the model can be used for simulation and optimisation with high accuracy and confidence
Constructed and Floating Wetlands for Sustainable Water Reclamation
Constructed wetlands (CWs) are engineered phytoremediation ecotechnologies. Herein, the two main biotic components, namely, plants and the bacterial community, work synergistically to remove a wide range of pollutants from wastewater. CWs have been used as sole treatment systems or as integrated modules within other types of wastewater-treatment plants (WWTPs), e.g., as tertiary treatment units. This Special Issue and Book gathers and appraises recent research outcomes regarding natural wetlands (i.e., mangroves) and engineered wetlands (constructed/floating systems), and highlights the underlying pollutant-degradation pathways and mechanisms for a wide range of organic and inorganic contaminants
Gas, Water and Solid Waste Treatment Technology
This book introduces a variety of treatment technologies, such as physical, chemical, and biological methods for the treatment of gas emissions, wastewater, and solid waste. It provides a useful source of information for engineers and specialists, as well as for undergraduate and postgraduate students, in the areas of environmental science and engineering
Book of abstracts of the 10th International Chemical and Biological Engineering Conference: CHEMPOR 2008
This book contains the extended abstracts presented at the 10th International Chemical and Biological
Engineering Conference - CHEMPOR 2008, held in Braga, Portugal, over 3 days, from the 4th to the 6th of
September, 2008. Previous editions took place in Lisboa (1975, 1889, 1998), Braga (1978), Póvoa de
Varzim (1981), Coimbra (1985, 2005), Porto (1993), and Aveiro (2001).
The conference was jointly organized by the University of Minho, “Ordem dos Engenheiros”, and the IBB -
Institute for Biotechnology and Bioengineering with the usual support of the “Sociedade Portuguesa de
Química” and, by the first time, of the “Sociedade Portuguesa de Biotecnologia”.
Thirty years elapsed since CHEMPOR was held at the University of Minho, organized by T.R. Bott, D. Allen,
A. Bridgwater, J.J.B. Romero, L.J.S. Soares and J.D.R.S. Pinheiro. We are fortunate to have Profs. Bott, Soares
and Pinheiro in the Honor Committee of this 10th edition, under the high Patronage of his Excellency the
President of the Portuguese Republic, Prof. Aníbal Cavaco Silva. The opening ceremony will confer Prof.
Bott with a “Long Term Achievement” award acknowledging the important contribution Prof. Bott brought
along more than 30 years to the development of the Chemical Engineering science, to the launch of
CHEMPOR series and specially to the University of Minho. Prof. Bott’s inaugural lecture will address the
importance of effective energy management in processing operations, particularly in the effectiveness of
heat recovery and the associated reduction in greenhouse gas emission from combustion processes.
The CHEMPOR series traditionally brings together both young and established researchers and end users
to discuss recent developments in different areas of Chemical Engineering. The scope of this edition is
broadening out by including the Biological Engineering research. One of the major core areas of the
conference program is life quality, due to the importance that Chemical and Biological Engineering plays in
this area. “Integration of Life Sciences & Engineering” and “Sustainable Process-Product Development
through Green Chemistry” are two of the leading themes with papers addressing such important issues.
This is complemented with additional leading themes including “Advancing the Chemical and Biological
Engineering Fundamentals”, “Multi-Scale and/or Multi-Disciplinary Approach to Process-Product
Innovation”, “Systematic Methods and Tools for Managing the Complexity”, and “Educating Chemical and
Biological Engineers for Coming Challenges” which define the extended abstracts arrangements along this
book.
A total of 516 extended abstracts are included in the book, consisting of 7 invited lecturers, 15 keynote,
105 short oral presentations given in 5 parallel sessions, along with 6 slots for viewing 389 poster
presentations. Full papers are jointly included in the companion Proceedings in CD-ROM. All papers have
been reviewed and we are grateful to the members of scientific and organizing committees for their
evaluations. It was an intensive task since 610 submitted abstracts from 45 countries were received.
It has been an honor for us to contribute to setting up CHEMPOR 2008 during almost two years. We wish
to thank the authors who have contributed to yield a high scientific standard to the program. We are
thankful to the sponsors who have contributed decisively to this event. We also extend our gratefulness to
all those who, through their dedicated efforts, have assisted us in this task.
On behalf of the Scientific and Organizing Committees we wish you that together with an interesting
reading, the scientific program and the social moments organized will be memorable for all.Fundação para a Ciência e a Tecnologia (FCT
Developing magnetic functionalized multi-walled carbon nanotubes-based buckypaper for the removal of Furazolid
Magnetic f-MWCNTs-based BP/PVA membrane was fabricated and utilized for the elimination of furazolidone (FZD) from aqueous solution. Characterisation and adsorption studies were performed to evaluate the performance and adsorptive efficiency, respectively of the membrane. Furthermore, statistical and machine learning technique were also applied to predict the removal efficiency of FZD on the membrane. The results revealed that magnetic f-MWCNTs-based BP/PVA membrane has the potential to be used as an efficient membrane for practical applications
Water Quality Engineering and Wastewater Treatment
Clean water is one of the most important natural resources on earth. Wastewater, which is spent water, is also a valuable natural resource. However, wastewater may contain many contaminants and cannot be released back into the environment until the contaminants are removed. Untreated wastewater and inadequately treated wastewater may have a detrimental effect on the environment and has a harmful effect on human health. Water quality engineering addresses the sources, transport and treatment of chemical and microbiological contaminants that affect water. Objectives for the treatment of wastewater are that the treated wastewater can meet national effluent standards for the protection of the environment and the protection of public health. This book, which is based on the Special Issue, includes contributions on advanced technologies applied to the treatment of municipal and industrial wastewater and sludge. The book deals with recent advances in municipal wastewater, industrial wastewater, and sludge treatment technologies, health effects of municipal wastewater, risk management, energy efficient wastewater treatment, water sustainability, water reuse and resource recovery
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