A New Recycling Technique for the Waste Tires Reuse

A New Recycling Technique for the Waste Tires Reuse Publisher Pubmed

Derakhshan Z¹ ; Ghaneian MT¹ ; Mahvi AH^{2, 3} ; Oliveri Conti G⁴ ; Faramarzian M⁵ ; Dehghani M⁶ ; Ferrante M⁴

Show Affiliations

1. Environmental Sciences and Technology Research, Center, Department of Environmental Health Engineering, Shahid Sadoughi University of Medical Sciences, Yazd, Iran
2. Center for Solid Waste Research (CSWR), Institute for Environmental Research (IER), Tehran University of Medical Sciences, Tehran, Iran
3. Department of Environmental Health Engineering, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
4. Environmental and Food Hygiene Laboratories (LIAA), Department of Medical, Surgical Sciences and Advanced Technologies â€œG.F. Ingrassiaâ€�, University of Catania, Italy
5. Department of environmental health engineering, Faculty of Health, Shiraz university of medical sciences, Shiraz, Iran
6. Research Center for Health Sciences, Department of Environmental Health, School of Health, Shiraz University of Medical Sciences, Shiraz, Iran

Source: Environmental Research Published:2017

Abstract

In this series of laboratory experiments, the feasibility of using fixed bed biofilm carriers (FBBC) manufactured from existing reclaimed waste tires (RWTs) for wastewater treatment was evaluated. To assess polyamide yarn waste tires as a media, the fixed bed sequence batch reactor (FBSBR) was evaluated under different organic loading rate (OLRs). An experimental model was used to study the kinetics of substrate consumption in biofilm. Removal efficiency of soluble chemical oxygen demand (SCOD) ranged by 76–98% for the FBSBR compared to 71–96% in a sequencing batch reactor (SBR). Removal efficiency of FBBC was significantly increased by inoculating these RWTs carriers. The results revealed that the sludge production yield (Yobs) was significantly less in the FBSBR compared to the SBR (p < 0.01). It also produced less sludge and recorded a lower stabilization ratio (VSS/TSS). The findings show that the Stover-Kincannon model was the best fit (R2 > 99%) in a FBSBR. Results from this study suggest that RWTs to support biological activity for a variety of wastewater treatment applications as a biofilm carrier have high potential that better performance as COD and TSS removal and sludge settling properties and effluent quality supported these findings. © 2017

Related Docs

View other Related Docs

1. Waste Tire Chunks As a Novel Packing Media in a Fixed-Bed Sequence Batch Reactors: Volumetric Removal Modeling, Desalination and Water Treatment (2017)

2. Evaluation of Volcanic Pumice Stone As Media in Fixed Bed Sequence Batch Reactor for Atrazine Removal From Aquatic Environments, Water Science and Technology (2016)

3. Studies on Influence of Process Parameters on Simultaneous Biodegradation of Atrazine and Nutrients in Aquatic Environments by a Membrane Photobioreactor, Environmental Research (2018)

4. Evaluation of Kenaf Fibers As Moving Bed Biofilm Carriers in Algal Membrane Photobioreactor, Ecotoxicology and Environmental Safety (2018)

5. Biodegradation of Atrazine From Wastewater Using Moving Bed Biofilm Reactor Under Nitrate-Reducing Conditions: A Kinetic Study, Journal of Environmental Management (2018)

6. Simultaneous Removal of Atrazine and Organic Matter From Wastewater Using Anaerobic Moving Bed Biofilm Reactor: A Performance Analysis, Journal of Environmental Management (2018)

7. Effects of Airborne Particulate Matter (Pm10) From Dust Storm and Thermal Inversion on Global Dna Methylation in Human Peripheral Blood Mononuclear Cells (Pbmcs) in Vitro, Atmospheric Environment (2018)

8. Zeolite-Intermittent Cycle Moving Bed Air-Lift Bioreactor (Zeo-Icmbabr) for Composting Leachate Treatment; Simultaneous Cod, Nitrogen and Phosphorous Compounds Removal, Journal of Environmental Health Science and Engineering (2020)

Experts (# of related papers)

View all Related Experts

Zahra Pourpak (1)

Mohammad Hossein Nicknam (1)

Style	Citing Format
MLA	Derakhshan Z, et al.. "A New Recycling Technique for the Waste Tires Reuse." Environmental Research, vol. 158, no. , 2017, pp. 462-469.
APA	Derakhshan Z, Ghaneian MT, Mahvi AH, Oliveri Conti G, Faramarzian M, Dehghani M, Ferrante M (2017). A New Recycling Technique for the Waste Tires Reuse. Environmental Research, 158(), 462-469.
Chicago	Derakhshan Z, Ghaneian MT, Mahvi AH, Oliveri Conti G, Faramarzian M, Dehghani M, Ferrante M. "A New Recycling Technique for the Waste Tires Reuse." Environmental Research 158, no. (2017): 462-469.
Harvard	Derakhshan Z et al. (2017) 'A New Recycling Technique for the Waste Tires Reuse', Environmental Research, 158(), pp. 462-469.
Vancouver	Derakhshan Z, Ghaneian MT, Mahvi AH, Oliveri Conti G, Faramarzian M, Dehghani M, et al.. A New Recycling Technique for the Waste Tires Reuse. Environmental Research. 2017;158():462-469.
BibTex	@article{ author = {Derakhshan Z and Ghaneian MT and Mahvi AH and Oliveri Conti G and Faramarzian M and Dehghani M and Ferrante M}, title = {A New Recycling Technique for the Waste Tires Reuse}, journal = {Environmental Research}, volume = {158}, number = {}, pages = {462-469}, year = {2017} }
RIS	TY - JOUR AU - Derakhshan Z AU - Ghaneian MT AU - Mahvi AH AU - Oliveri Conti G AU - Faramarzian M AU - Dehghani M AU - Ferrante M TI - A New Recycling Technique for the Waste Tires Reuse JO - Environmental Research VL - 158 IS - SP - 462 EP - 469 PY - 2017 ER -

Science Communicator Platform

Authors

Authors Affiliations

Abstract