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Handbook of Composites from Renewable Materials, Functionalization

Name: Handbook of Composites from Renewable Materials, Functionalization
Author: Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler, Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler

Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler, Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler

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eBook - ePub

Handbook of Composites from Renewable Materials, Functionalization

Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler, Vijay Kumar Thakur, Manju Kumari Thakur, Michael R. Kessler

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About This Book

This unique multidisciplinary 8-volume set focuses on the emerging issues concerning synthesis, characterization, design, manufacturing and various other aspects of composite materials from renewable materials and provides a shared platform for both researcher and industry.

The Handbook of Composites from Renewable Materials comprises a set of 8 individual volumes that brings an interdisciplinary perspective to accomplish a more detailed understanding of the interplay between the synthesis, structure, characterization, processing, applications and performance of these advanced materials. The Handbook comprises 169 chapters from world renowned experts covering a multitude of natural polymers/ reinforcement/ fillers and biodegradable materials.

Volume 4 is solely focused on the Functionalization of renewable materials. Some of the important topics include but not limited to: Chitosan-based bio sorbents; oil spill clean-up by textiles; pyridine and bipyridine end-functionalized polylactide; functional separation membranes from chitin and chitosan derivatives; acrylated epoxidized flaxseed oil bio-resin and its biocomposites; encapsulation of inorganic renewable nanofiller; chitosan coating on textile fibers for functional properties; surface functionalization of cellulose whiskers for nonpolar composites; impact of chemical treatment and the manufacturing process on mechanical, thermal and rheological properties of natural fibers based composites; bio-polymers modification; review on fibers from natural resources; strategies to improve the functionality of starch based films; the effect of gamma-radiation on biodegradability of natural fibers; surface functionalization through vapor-phase assisted surface polymerization (VASP) on natural materials from agricultural by-products; okra bast fiber as potential reinforcement element of biocomposites; silane coupling agent used in natural fiber/plastic composites; composites of olefin polymer /natural fibers: the surface modifications on natural fibers; surface functionalization of biomaterials; thermal and mechanical behaviors of bio-renewable fibres based polymer composites; natural and artificial diversification of starch; role of radiation and surface modification on bio-fiber for reinforced polymer composites.

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Information

Publisher

Wiley-Scrivener

Year

2017

ISBN

9781119223764

Edition

Topic

Technik & Maschinenbau

Subtopic

Chemie- & Biochemietechnik

Chapter 1
Chitosan-Based Biosorbents: Modifications and Application for Sequestration of PPCPs and Metals for Water Remediation

Dipali Rahangdale¹, G. Archana¹, Rita Dhodapkar²* and Anupama Kumar¹*

¹Department of Chemistry, Visvesvaraya National Institute of Technology (V.N.I.T), Nagpur, India

²Waste Water Technology Division, CSIR-National Environmental Engineering Research Institute, Nagpur, India

*Corresponding authors: [email protected], [email protected]; [email protected]

Abstract

Contamination of aquatic media by organic and inorganic pollutants is a serious environmental problem that affects the reuse of water obtained from treated domestic or industrial waste water. This chapter discusses the occurrence, persistence, bioaccumulation, adverse risk assessments on ecosystem by the pollutants along with an overview of the limitations, drawbacks, and recent challenges of some advanced effective techniques like advance oxidation processes and ozonation for the remediation of pollutants. It also highlights new horizons for their removal using new and cost-effective treatment technologies. The chapter addresses novel adsorbents including chitosan-based derivatives that have been used for sequestration of pollutants for water purification. Specific recognition sites can be incorporated within the chitosan-based biosorbents using molecularly imprinted technique for enhancing its adsorption capacity. Computer-aided design of chitosan-based biosorbents provides assistance in choice of precursors and porogen and proves to be a rapid and economical option to optimize the imprinting conditions for achieving higher removal efficiency.

Keywords: PPCPs, chitin, chitosan, grafting, adsorption, heavy metals, cross-linker

1.1 Introduction

Over the past few decades, water pollution has led to serious health effects to the flora and fauna as well as the human beings due to continuous entry of emerging pollutants and is the major environmental concern these days. It is found to be a major cause for poor nutritional standards and development in children (water pollution, Wikipedia). Pollution is caused by a variety of human activities such as industrial, agricultural, domestic as well as due to the release of untreated/treated sewage or industrial waste water to the surrounding water bodies (Ledezma et al., 2012; shen et al., 2011; Heberer et al., 2002; Jiang et al., 2013). Recent developments in analytical chemistry have led to better sensitivity and detection of compounds present in microgram or nanogram levels in water. Thus, a new group of pollutants have emerged and gained attention as these compounds end up into the aqueous environment as an upshot causing adverse effect on the living organisms as well as ecosystem. These contaminants mainly are endocrine disrupting compounds (EDCs), synthetic and naturally occurring hormones, pharmaceuticals and personal care products (PPCPs), herbicides, fungicides, pesticides, insecticides, bug repellents, etc. (Xu et al., 2013; Shraim et al., 2012; Kot-Wasik et al., 2007; Arany et al., 2013; Dodgen et al., 2014; Ziyalan et al., 2011; Pal et al., 2013).

PPCPs are diverse galaxies of chemicals defined as, compounds used in daily life for personal hygiene and cosmetic purpose as well as in agribusiness that help to enhance the growth and improve the health of livestock. Pharmaceuticals include antidepressants, tranquilizers, psychiatric drugs, cancer drugs, pain killers, anti-inflammatory, antihypertensive, antiseptics, lipid regulators (e.g., cholesterol medication), oral contraceptives, synthetic hormones, drugs for enhancing sexual performance, antibiotics, and many other classes and types of drugs. Personal care products are chemical compounds used for personal hygiene and for beautification. Personal care products include variety of compounds, such as perfumes, musk, shampoos, deodorants, hair dye, oral hygiene product, hair spray, cosmetic, nail polish, sun screen, body lotion, lipstick, etc. (Huber et al., 2003; Belgiorno et al., 2007; Molinos-Senante et al., 2014; Sun et al., 2014; Neamțu et al., 2014; Gavrilescu et al., 2015; Kosjek et al., 2012).

PPCPs are consistently entering into various aqueous sources by the discharge of treated and untreated sewage and go undetected due to no standards levied on the municipal bodies by the regulatory agencies. Persistence of PPCPs in water bodies also finds their way into the ground water and finally into drinking water. Providence and fate of PPCPs in aquatic environment is a serious matter of public concern, and recently more scrutiny has been paid to these emerging pollutants in water bodies (Ellis et al., 2006; Bolong et al., 2009; Gunnarsdottir et al., 2013). Several investigations reveals the presence of PPCPs in trace concentrations level ranging from ngL^–1 to µg L^–1 in various environmental matrix, possibly due to inefficacious removal by sewage treatment plants (Esplugas et al., 2007).

Many of these PPCPs are ubiquitous, persistence, and suffer biotransformation leading to the production of highly pernicious metabolites. The first alarming negative impact of the levels of PPCPs was communicated by Stumm-Zollinger in 1965 and Tabak and Bunch in 1970. Some of the negative effects caused by PPCPs include toxicity to aquatic organisms by disruption of end...