JEB logo

Journal of Environmental Biology

pISSN: 0254-8704 ; eISSN: 2394-0379 ; CODEN: JEBIDP
About Journal
    Home
    Obituary: Dr. R. C. Dalela
    Editorial Board
    Reviewer Panel
    Publication Policies
    Guidelines for Editors
    Guidelines for Reviewers
    Abstracting and Indexing
    Subscription and Payments
    Contact Journal
    About Triveni Enterprises
 
Read Journal
    Current Issue
    Journal Archives
 
For Authors
    Guidelines for Authors
    Terms and Conditions
    Author Resources
    Fees and Payments
    Track Paper Status
 

Google Search the Journal web-site:


    Abstract - Issue Jan 2016, 37 (1)                                     Back


nstantaneous and historical temperature effects on a-pinene

Isolation and identification of Trichoderma harzianum from groundwater: An effective biosorbent for defluoridation of groundwater 

 

Shalini Koshle1, S. Mahesh2? and S. Nanjunda Swamy3*

 

 

1Department of Biotechnology, Sri Jayachamarajendra College of Engineering, Mysore-570 006, India

2Department of Environmental Engineering, Sri Jayachamarajendra College of Engineering, Mysore-570 006, India

*Corresponding Author Email : nanju_chem@yahoo.com

 

 

 

Publication Data

Paper received:

16 October 2014

 

Revised received:

30 January 2015

 

Accepted:

20 March 2015

 

Abstract

The ability of non-viable form of Trichoderma harzianum, isolated from fluoride rich groundwater, was investigated as biosorbent for defluoridation of groundwater. Biosorption experiments were carried out at laboratory scale for removal of fluoride from groundwater. Significant effect of operational parameters on fluoride biosorption using Trichoderma harzianum? as biosorbent was evaluated by varying operational parameters such as: initial fluoride concentration (2-8 mgl-1), biosorbent dose (0.4-1.6g/100ml), groundwater pH (6-10), temperature (30-50?C) and biosorption time (30-120 min). The fluoride adsorption isotherms were modeled by Langmuir and Freundlich isotherms. Our result showed that fluoride biosorption, significantly increased with increase in groundwater pH, biosorbent dose, temperature and biosorption time, whereas increase in initial fluoride concentration reduced fluoride removal. The fluoride biosorption was rapid and maximum fluoride uptake was attained with 1.6g 100ml-1 biosorbent within 60 min. Optimal pH 10 and temperature 50?C gave maximum defluoridation efficiency. Freundlich isotherm fits well for defluoridation of groundwater using Trichoderma harzianum as biosorbent which indicated that biosorbent surface sites were heterogeneous in nature and fitted into heterogeneous site binding model. ???  

 

 

 Key words

Adsorbate, Adsorption, Biosorbent, Defluoridation, Freundlich Isotherm

 

 

Copyright ? 2016 Triveni Enterprises. All rights reserved. No part of the Journal can be reproduced in any form without prior permission. Responsibility regarding the authenticity of the data, and the acceptability of the conclusions enforced or derived, rest completely with the author(s).