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Engineering towards a sustainable future / editors, Mohamad Danial Shafiqfi, Muhammad Bisya Md Yusof PDF

244 Pages·2015·6.896 MB·English
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ENGINEERING TOWARDS A SUSTAINABLE FUTURE ENGINEERING TOWARDS A SUSTAINABLE FUTURE Editors Mohamad Danial Shafiq Muhammad Bisya Md Yusof PENERBIT UNIVERSITI SAINS MALAYSIA PULAU PINANG © Penerbit Universiti Sains Malaysia, 2015  EPUB, 2015 Perpustakaan Negara Malaysia   Cataloguing-in-Publication Data e-ISBN 978-983-861-904-2 Copy Editor: Hasleza Abdul Halim Cover Designer: Intan Suhaila Kassim Proofreader: Aida Izana Yaakub Typesetter: Noraini Md Isa Published by Penerbit Universiti Sains Malaysia (Universiti Sains Malaysia Press),  11800 USM Pulau Pinang, Malaysia. A member of the Malaysian Scholarly Publishing Council (MAPIM). Laman web: http://www.penerbit.usm.my E-mel: [email protected] This e-book is best viewed with iBooks. Penerbit USM shall not be liable for any loss or damage  caused by any changes due to usage of any application. CONTENTS Preface About iNESCO CIVIL ENGINEERING Compartment-Wise Profile of Modified Anaerobic Hybrid Bafled (MAHB) Reactor Treating Recycled Paper Mill Effluent (RPME) Removal of Color From Real Textile Wastewater Using Clinoptilolite, Towards a Green Environment Estimate of Potential Water Excesses, Surface Runoff in the Valleys of Western Region of Iraq Preliminary Study on Characteristic of Jackfruit Seeds Starch in Leachate Development of Odor Wheel as Primary Assessment Tool for Odor Odour Impact Assessment at Palm Oil Mill Site, Malaysia – A Questionnaire, Pilot Study A Novel Design Concept of Modified Anaerobic Inclining-Baffled Reactor (MAI-BR) for Wastewater Treatment Application CHEMICAL ENGINEERING Performance Studies of Anode Batch Microbial Fuel Cells Via Cyclic Voltammetry Method Comparative Studies on the Performance of Single Chamber and Dual-Chamber Microbial Fuel Cells Design for Electricity Generation ELECTRIC AND ELECTRONIC ENGINEERING Radio Frequency Energy Harvesting by Using Circular Planar Spiral Inductor Antenna Array Enhanced S-Band Lasing Using a Thulium Doped Photonic Crystal Fiber First Principle Investigation of Electronic Structures and Hyperfine Interactions of Muoniated Me P[Pd(dmit) ] 4 2 2 MATERIALS AND POLYMER SCIENCES/ENGINEERING Vinyl Poly (Chloride)-Grafted-Maleic Anydride (Pvc-g-Ma) as the Compatibilizer for PVC/ENR/Kenaf Core Powder Composite: The Effects on Mechanical Properties Effect of Alkanolamide on Cure Characteristics and Tensile Properties of Carbon Black- Filled Natural Rubber Compound Study on the Effect of Carbon Black (CB) on the Properties of Natural Rubber/Recycled Chloroprene Rubber (NR/rCR) Blends Gas Permeability of Rubber Coated PVC-PEG Membrane Impact Strength, Morphology and Water Absorption of Rubber Seed Kernel Flour (RSKF) Filled Recycled Polystyrene (RPS) and Virgin Polystyrene (VPS) Composites Tensile Properties and Morphology of NR/NBRR Blends: EVA as Compatibilizer Mechanical and Morphological Properties of Kenaf Powder Filled Natural Rubber Latex Foam Effect of the Addition of Epoxidized Natural Rubber on Silica Reinforcement of Styrene Butadiene Rubber Compound MECHANICAL AND MANUFACTURING ENGINEERING A Review of Productivity Measurement and Analysis with Different Perspectives in Real Condition of Production Industries Effect of Fluidization Ratio on the Performance of an Internally Circulating Aerated Fluidized Bed Gasifier with Concentric Cylinders Torrefaction of Biomass Pellets Using Waste Heat from Producer Gas Gasification Process Assessing Effect of Idling on Compression Ignition Engine Operated with Palm, Jatropha and Calophyllum Biodiesel Blends ENERGY AND RENEWABLE SOURCES Perfomance of Absorption Mediums for Tar Removal from Producer Gas The Case Study of Energy Saving Potential in the Ice Tube Plant, Thailand The Energy Saving Potential in Thatphanom College, Thailand ENVIRONMENTAL SCIENCES Evaluation of Compost Quality by Utilizing of Indigenous Microorganisms (IMO) Treated Sugarcane Bagasse as an Adsorbent for the Removal of Reactive Green 19 From Aqueous Solution Synthesis and Characterization of Calcium Oxide from Waste Eggshell PREFACE This book presents the compiled outstanding research articles over Malaysia and neighbouring countries from the International Engineering for Sustainability Conference 2014 (iNESCO 2014) concerning the issue of engineering for environment and sustainability. This book is primarily addressed to academicians, researchers, scientist, innovators, and individuals who have influences in the growth and development of the nation and country. An understanding of the causes and effects, mainly contributed to the preservation of the environment as one of the basic stands that influence the behaviour of producing effective and efficient products and services, and serving the environment at once. Grateful acknowledgment is here made to the researchers, editors, organizers and those involved in gathering the data for the research articles. This work would not have reached its present form without their invaluable help. Some articles may have demographic studies of a country and hazardous chemicals used, in order to tabulate the research data and complete the research. October 2014 About iNESCO The International Engineering for Sustainability Conference (iNESCO) is a platform that inspires young engineering students to share, educate, and contribute wonderful ideas and knowledge. It is organized biannually by the Students’ Representative Council of USM Engineering Campus since 2010 with the initial name of NESCO (National Engineering Student Convention). In 2011, this program transformed from NESCO to become iNESCO, expanding our reach to international levels. iNESCO has a significant theme every year, which is engineering for sustainability and environment. The aim of this program is to provide helpful information for younger undergraduates to stimulate the knowledge transfer from generation to generation; from their senior undergraduates and postgraduates. Not just that, environment is seriously threatened by vast development of technology and through iNESCO, the organizer believes that it will gain deeper understanding on the importance and techniques of preserving the environment and the concept of sustainability among participants. For this year’s iNESCO, in an effort to rebrand the conference for a wider and deeper impact while still preserving the original aim of the conference, we are introducing a new category; the Science Innovation category. It is a design competition that is open for all secondary school and undergraduate students, to produce as sustainable product that will benefit the future. Therefore, iNESCO 2014 will have four categories of participation; namely Paper Presentation, Poster Presentation, Science Innovation and Audience. This conference gathers secondary school students and engineering students from higher education institutions around the world to discuss and discover their role in the future of engineering field, as well as generate and exchange ideas for the benefit of all. Through iNESCO, we are able to expand our horizons in the application of engineering knowledge for a sustainable future besides exposing ourselves to people from different backgrounds, cultures, nations, and perspectives. Through the paper and poster presentations, young engineering students are able to discuss, share and analyze the best engineering solution for critical issues in the world, especially in the context of sustainability. On the other hand, the Science Innovation competition enables students to foster the concept of sustainability in their minds, while training them to think out of the box to deal with everyday problems. Universiti Sains Malaysia, as a Research University and above all an APEX University acts as the host to lead these healthy discussions to produce young and talented engineers, in line with USM’s efforts to be the forefront of transforming Malaysia’s higher education. We hope that iNESCO will not only inspire young engineering students to take up the initiative of generating new ideas in engineering sustainability but also inspire them to pass this cause on to the future generations to achieve synergy in building a new era. COMPARTMENT-WISE PROFILE OF MODIFIED ANAEROBIC HYBRID BAFFLED (MAHB) REACTOR TREATING RECYCLED PAPER MILL EFFLUENT (RPME) 1Siti Roshayu Hassan, 1Nastaein Qamaruz Zaman, 2*Irvan Dahlan 1 School of Civil Engineering, Universiti Sains Malaysia, Engineering Campus, 14300 Nibong Tebal, Pulau Pinang, Malaysia. 2 School of Chemical Engineering, Universiti Sains Malaysia, Engineering Campus, 14300 Nibong Tebal, Pulau Pinang, Malaysia. e-mail: [email protected] ABSTRACT A 5 compartment modified anaerobic hybrid baffled (MAHB) reactor was used continuously to treat recycled paper mill effluent (RPME) anaerobically with constant feeding COD of 3000 mg L−1 and hydraulic retention time (HRT) of 1, 3, 5 and 7 days. RPME without pH adjustment was used throughout the process for the MAHB reactor. In this paper, the performance of MAHB reactor treating RPME in terms of compartment wise variation of various parameters were investigated. Compartment wise profiles specifies that half of the COD were removed in the initial compartments followed by the remaining compartments. Low pH of 6.0–6.2 and high volatile fatty acid concentration of 90–168 mg L−1 were recorded in the first compartment for each HRT due to acidogenesis and acetogenesis process. System pH and alkalinity shows increments profile while VEA concentration decreased as it moves from compartment 1 to 5. Biogas volume were high which is 6.56 L at higher HRT with a decreasing pattern of methane content from 96%–35% from compartment 1 to 5. Contrarily, at low HRT of 1 day, although the biogas volume was lower, but methane content shows increment from 42%–64%. Result indicates that MAHB reactor was successfully operated in treating RPME wastewater. Keywords: modified anaerobic hybrid baffled (MAHB) reactor, anaerobic digestion process, recycled paper mill effluent (RPME) 1 INTRODUCTION The application of anaerobic technology in treating industrial wastewaters highly depends on the performance of reactor used. Anaerobic baffled reactor (ABR) were one of the favorable system in treating industrial waste. Although ABR were extensively used to treat different types of industrial waste, literature survey shows that there is lack on the anaerobic treatment of recycled paper mill effluent (RPME) wastewater by a novel modified anaerobic hybrid baffled (MAHB) reactor.

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