Research Article
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Year 2017, , 11 - 17, 15.05.2017
https://doi.org/10.31127/tuje.315927

Abstract

References

  • Assawasaengrat, P., Jintanavasan, P., Kitchaiya, P., (2015). Adsorption of FFA, Soap and Glycerine in Biodiesel Using Magnesium Silicate, Chemical Engineering Transactions, Vol. 43, No 43, pp. 1135-1140 .
  • Baek, M. H., Ijagbemi, C. O., Se-Jin O, Kim, D. S., (2010). Removal of Malachite Green from aqueous solution using degreased coffee bean, Journal of Hazardous Materials Vol. 176, pp. 820–828.
  • Basibuyuk, M., Savcı, S., Keskinkan, O., Cakmak, M. E., (2007). Investigation of a Basic Dye Adsorption Characteristics of a Non-Living Submerged Aquatic Plant (Myriophyllum spicatum), Asian Journal of Chemistry, Vol.3, No. 19, pp. 1693-1702.
  • Blum, D.J.W., Suffet, I.H., Duguet, J.P. (1993). Estimating The Activated Carbon Adsorption of Organic Chemicals In Water. Crit. Rev. Environ. Science Technol., Vol.23, pp.121-136.
  • Calderón, M., et al., (2008). The use of Magallanic peat as non-conventional sorbent for EDTA removal from wastewater.Bioresource Technology Vol. 99, No.17, pp. 8130-8136.
  • Ceclan R.E., Pop A., Ceclan M., (2012). Biodiesel from Waste Vegetable Oils, Chemical Engineering Transactions, Vol. 29, pp. 1177-1182.
  • Daud, N. M., Abdullah, S. R. S., Hasan, H. A., Yaakob, Z., (2015). Production of biodiesel and its wastewater treatment technologies: A review. Process Safety and Environmental Protection Vol.9, No. 4, pp.487–508.
  • Elkady M.F., Ibrahim A.M., Abd El-Latif M.M., (2011). Assessment of the adsorption kinetics, equilibrium and thermodynamic for the potential removal of reactive red dye using eggshell biocomposite beads. Desalination; Vol. 278, No. 1, pp. 412-23.
  • Gupta, N., Kushwaha, A. K., Chattopadhyaya, M. C., (2012). Adsorptive removal of Pb 2+, Co 2+ and Ni 2+ by hydroxyapatite/chitosan composite from aqueous solution. Journal of the Taiwan Institute of Chemical Engineers Vol.43, No.1, pp. 125-131.
  • Ho YS., (2006). Isotherms for the sorption of lead onto peat: comparison of linear and non-linear methods. Polish Journal of Environmental Study Vol. 15, pp. 81–6.
  • Jaruwat, P., Kongjao, S., & Hunsom, M. (2010). Management of biodiesel wastewater by the combined processes of chemical recovery and electrochemical treatment. Energy Conversion and Management, Vol. 51, No.3, pp. 531–537.
  • Kumar M, Sharma MP., (2016). Kinetics of Chlorella protothecoides microalgal oil using base catalyst. Egypt Journal of Petrolium, Vol. 25, No.3, pp. 375-382.
  • Kwon E.E., Kim S, Jeon Y.J., Yi H., (2012). Biodiesel production from sewage sludge: new paradigm for mining energy from municipal hazardous material. Environ Sci Technol; Vol.46, pp.10222–8.
  • Liu, S., Musuku, S. R., Adhikari, S., Fernando, S., (2009). Adsorption of glycerol from biodiesel washwaters, Environmental Technology Vol. 30, No. 5, pp. 505–510.
  • McKay, G., (1981). Design Models For Adsorption System In Wastewater Treatment. J. Chem. Tech. Biotechnol., Vol.31, pp. 717-772.
  • McKay, G., (1982). Adsorption of Dyestuffs From Aqueous Solutions With Activated Carbon I : Equilibrium and Batch Contact-Time Studies. J. Chem. Tech. Biotechnol., Vol. 32 pp. 759-731.
  • Meshko, V., Markovska, L., Mincheva, M., Rodrigues, A.E., (2001). Adsorption of Basic Dyes On Granular Acivated Carbon and Natural Zeolite. Water Research, Vol. 35, No.14 pp. 3357-3366.
  • Ngamlerdpokin, K., Kumjadpai, S., Chatanon, P., Tungmanee, U., Chuenchuanchom, S., Jaruwat, P., Hunsom, M. (2011). Remediation of biodiesel wastewater by chemical- and electro-coagulation: A comparative study. Journal of Environmental Management, Vol. 92, No.10, pp. 2454– 2460. Mittal, Alok, Jyoti Mittal, and Lisha Kurup, (2006). Adsorption isotherms, kinetics and column operations for the removal of hazardous dye, Tartrazine from aqueous solutions using waste materials—bottom ash and de-oiled soya, as adsorbents. Journal of Hazardous Materials, Vol. 136, No.3 pp. 567-578.
  • Moussavi, Gholamreza, and Behnam Barikbin., (2010). Biosorption of chromium (VI) from industrial wastewater onto pistachio hull waste biomass. Chemical Engineering Journal, Vol.162, No:3, pp. 893-900.
  • Pitakpoolsil, Wipawan, and Mali Hunsom, (2014). Treatment of biodiesel wastewater by adsorption with commercial chitosan flakes: parameter optimization and process kinetics. Journal of Environmental Management Vol.133 pp. 284-292.
  • Pitakpoolsil, W., Hunsom M., (2013). Adsorption of pollutants from biodiesel wastewater using chitosan flakes. Journal of the Taiwan Institute of Chemical Engineers Vol.44, pp.963–971.
  • Robinson T., Chandran B., Nigam, P., (2002). Removal of dyes from a synthetic textile dye effluent by biosorption on apple pomace and wheat straw, Water Research., Vol. 36, No.11, pp. 2824-2830.
  • Rattanapan, C., Sawain, A., Suksaroj, T., & Suksaroj, C. (2011). Enhanced efficiency of dissolved air flotation for biodiesel wastewater treatment by acidification and coagulation processes. Desalination, Vol. 280, No.1-3, pp. 370–377.
  • Srirangsan, A., Ongwandee, M., Chavalparit, O., (2009). Treatment of biodiesel wastewater by electrocoagulation process. Environ. Asia, Vol.2, pp.15–19.
  • Standart Methods, A. P. H. A.-A. W. W. A. W. P. C. F., 1998. Standart Methods For The Examination Of Water And Wastewater. 19. Baskı, Washington, D.C.
  • Sokker, H. H., El-Sawy N. M., Hassan, M. A., El-Anadouli B. E., (2011). Adsorption of crude oil from aqueous solution by hydrogel of chitosan based polyacrylamide prepared by radiation induced graft polymerization. Journal of Hazardous Materials Vol.190, No.1, pp. 359-365.
  • The Statistic Portal (http://www.statista.com/statistics/271472/biodiesel-production-in-selected-countries/) 02.05.2017.
  • Tubino M, Junior JGR, Bauerfeldt GF., (2014). Biodiesel synthesis with alkaline catalysts: a new refractometric monitoring and kinetic study. Fuel, Vol. 125, pp. 164– 72.
  • Tsigie, Y. A., Huynh, L. H., Ismadji, S., Engida, A. M., Ju, Y. H., (2012). In situ biodiesel production from wet Chlorella vulgaris under subcritical condition. Chemical Engineering Journal, Vol. 213, pp.104–108.
  • Olkiewicz, M., Torres, C. M., Jiménez, L., Font, J., Bengoa, C., (2016). Scale-up and economic analysis of biodiesel production from municipal primary sewage sludge. Bioresource Technology, Vol. 214, pp.122–131.
  • Verma, P., Sharma, M. P., (2016). Review of process parameters for biodiesel production from different feedstocks, Renewable and Sustainable Energy Reviews, Vol. 62, pp.1063–1071.
  • Verma P, Sharma MP, Dwivedi G., (2015). Operational and environmental impact of biodiesel on engine performance: a review of literature. Int J Renew Energy Res;Vol. 5, No:4, pp. 961–70.
  • Xiong, J.B., Mahmood, Q., (2010). Adsorptive removal of phosphate from aqueous media by peat. Desalination 259:59–64.
  • Zhang X, Yan S, Tyagi R.D, Surampalli R.Y., (2013). Energy balance and greenhouse gas emissions of biodiesel production from oil derived from wastewater and wastewater sludge. Renew Energy; Vol. 55, pp.392–403.

TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS

Year 2017, , 11 - 17, 15.05.2017
https://doi.org/10.31127/tuje.315927

Abstract

In this study, removal of original biodiesel wastewater (BOD, COD, oil&greas) by yellow mustard seeds was examined by a batch system. The effect of the adsorption time 300 minutes, adsorbent dose (1.0 g/L) and mixing rate (120 rpm) on the adsorption capacity of pollutants. The applicability of the Langmuir and Freundlich isotherms were examined. According to the data obtained from experiments, biodiesel wastewater can be treated by adsorption using yellow mustard seeds.                                                                                                                                                                               

References

  • Assawasaengrat, P., Jintanavasan, P., Kitchaiya, P., (2015). Adsorption of FFA, Soap and Glycerine in Biodiesel Using Magnesium Silicate, Chemical Engineering Transactions, Vol. 43, No 43, pp. 1135-1140 .
  • Baek, M. H., Ijagbemi, C. O., Se-Jin O, Kim, D. S., (2010). Removal of Malachite Green from aqueous solution using degreased coffee bean, Journal of Hazardous Materials Vol. 176, pp. 820–828.
  • Basibuyuk, M., Savcı, S., Keskinkan, O., Cakmak, M. E., (2007). Investigation of a Basic Dye Adsorption Characteristics of a Non-Living Submerged Aquatic Plant (Myriophyllum spicatum), Asian Journal of Chemistry, Vol.3, No. 19, pp. 1693-1702.
  • Blum, D.J.W., Suffet, I.H., Duguet, J.P. (1993). Estimating The Activated Carbon Adsorption of Organic Chemicals In Water. Crit. Rev. Environ. Science Technol., Vol.23, pp.121-136.
  • Calderón, M., et al., (2008). The use of Magallanic peat as non-conventional sorbent for EDTA removal from wastewater.Bioresource Technology Vol. 99, No.17, pp. 8130-8136.
  • Ceclan R.E., Pop A., Ceclan M., (2012). Biodiesel from Waste Vegetable Oils, Chemical Engineering Transactions, Vol. 29, pp. 1177-1182.
  • Daud, N. M., Abdullah, S. R. S., Hasan, H. A., Yaakob, Z., (2015). Production of biodiesel and its wastewater treatment technologies: A review. Process Safety and Environmental Protection Vol.9, No. 4, pp.487–508.
  • Elkady M.F., Ibrahim A.M., Abd El-Latif M.M., (2011). Assessment of the adsorption kinetics, equilibrium and thermodynamic for the potential removal of reactive red dye using eggshell biocomposite beads. Desalination; Vol. 278, No. 1, pp. 412-23.
  • Gupta, N., Kushwaha, A. K., Chattopadhyaya, M. C., (2012). Adsorptive removal of Pb 2+, Co 2+ and Ni 2+ by hydroxyapatite/chitosan composite from aqueous solution. Journal of the Taiwan Institute of Chemical Engineers Vol.43, No.1, pp. 125-131.
  • Ho YS., (2006). Isotherms for the sorption of lead onto peat: comparison of linear and non-linear methods. Polish Journal of Environmental Study Vol. 15, pp. 81–6.
  • Jaruwat, P., Kongjao, S., & Hunsom, M. (2010). Management of biodiesel wastewater by the combined processes of chemical recovery and electrochemical treatment. Energy Conversion and Management, Vol. 51, No.3, pp. 531–537.
  • Kumar M, Sharma MP., (2016). Kinetics of Chlorella protothecoides microalgal oil using base catalyst. Egypt Journal of Petrolium, Vol. 25, No.3, pp. 375-382.
  • Kwon E.E., Kim S, Jeon Y.J., Yi H., (2012). Biodiesel production from sewage sludge: new paradigm for mining energy from municipal hazardous material. Environ Sci Technol; Vol.46, pp.10222–8.
  • Liu, S., Musuku, S. R., Adhikari, S., Fernando, S., (2009). Adsorption of glycerol from biodiesel washwaters, Environmental Technology Vol. 30, No. 5, pp. 505–510.
  • McKay, G., (1981). Design Models For Adsorption System In Wastewater Treatment. J. Chem. Tech. Biotechnol., Vol.31, pp. 717-772.
  • McKay, G., (1982). Adsorption of Dyestuffs From Aqueous Solutions With Activated Carbon I : Equilibrium and Batch Contact-Time Studies. J. Chem. Tech. Biotechnol., Vol. 32 pp. 759-731.
  • Meshko, V., Markovska, L., Mincheva, M., Rodrigues, A.E., (2001). Adsorption of Basic Dyes On Granular Acivated Carbon and Natural Zeolite. Water Research, Vol. 35, No.14 pp. 3357-3366.
  • Ngamlerdpokin, K., Kumjadpai, S., Chatanon, P., Tungmanee, U., Chuenchuanchom, S., Jaruwat, P., Hunsom, M. (2011). Remediation of biodiesel wastewater by chemical- and electro-coagulation: A comparative study. Journal of Environmental Management, Vol. 92, No.10, pp. 2454– 2460. Mittal, Alok, Jyoti Mittal, and Lisha Kurup, (2006). Adsorption isotherms, kinetics and column operations for the removal of hazardous dye, Tartrazine from aqueous solutions using waste materials—bottom ash and de-oiled soya, as adsorbents. Journal of Hazardous Materials, Vol. 136, No.3 pp. 567-578.
  • Moussavi, Gholamreza, and Behnam Barikbin., (2010). Biosorption of chromium (VI) from industrial wastewater onto pistachio hull waste biomass. Chemical Engineering Journal, Vol.162, No:3, pp. 893-900.
  • Pitakpoolsil, Wipawan, and Mali Hunsom, (2014). Treatment of biodiesel wastewater by adsorption with commercial chitosan flakes: parameter optimization and process kinetics. Journal of Environmental Management Vol.133 pp. 284-292.
  • Pitakpoolsil, W., Hunsom M., (2013). Adsorption of pollutants from biodiesel wastewater using chitosan flakes. Journal of the Taiwan Institute of Chemical Engineers Vol.44, pp.963–971.
  • Robinson T., Chandran B., Nigam, P., (2002). Removal of dyes from a synthetic textile dye effluent by biosorption on apple pomace and wheat straw, Water Research., Vol. 36, No.11, pp. 2824-2830.
  • Rattanapan, C., Sawain, A., Suksaroj, T., & Suksaroj, C. (2011). Enhanced efficiency of dissolved air flotation for biodiesel wastewater treatment by acidification and coagulation processes. Desalination, Vol. 280, No.1-3, pp. 370–377.
  • Srirangsan, A., Ongwandee, M., Chavalparit, O., (2009). Treatment of biodiesel wastewater by electrocoagulation process. Environ. Asia, Vol.2, pp.15–19.
  • Standart Methods, A. P. H. A.-A. W. W. A. W. P. C. F., 1998. Standart Methods For The Examination Of Water And Wastewater. 19. Baskı, Washington, D.C.
  • Sokker, H. H., El-Sawy N. M., Hassan, M. A., El-Anadouli B. E., (2011). Adsorption of crude oil from aqueous solution by hydrogel of chitosan based polyacrylamide prepared by radiation induced graft polymerization. Journal of Hazardous Materials Vol.190, No.1, pp. 359-365.
  • The Statistic Portal (http://www.statista.com/statistics/271472/biodiesel-production-in-selected-countries/) 02.05.2017.
  • Tubino M, Junior JGR, Bauerfeldt GF., (2014). Biodiesel synthesis with alkaline catalysts: a new refractometric monitoring and kinetic study. Fuel, Vol. 125, pp. 164– 72.
  • Tsigie, Y. A., Huynh, L. H., Ismadji, S., Engida, A. M., Ju, Y. H., (2012). In situ biodiesel production from wet Chlorella vulgaris under subcritical condition. Chemical Engineering Journal, Vol. 213, pp.104–108.
  • Olkiewicz, M., Torres, C. M., Jiménez, L., Font, J., Bengoa, C., (2016). Scale-up and economic analysis of biodiesel production from municipal primary sewage sludge. Bioresource Technology, Vol. 214, pp.122–131.
  • Verma, P., Sharma, M. P., (2016). Review of process parameters for biodiesel production from different feedstocks, Renewable and Sustainable Energy Reviews, Vol. 62, pp.1063–1071.
  • Verma P, Sharma MP, Dwivedi G., (2015). Operational and environmental impact of biodiesel on engine performance: a review of literature. Int J Renew Energy Res;Vol. 5, No:4, pp. 961–70.
  • Xiong, J.B., Mahmood, Q., (2010). Adsorptive removal of phosphate from aqueous media by peat. Desalination 259:59–64.
  • Zhang X, Yan S, Tyagi R.D, Surampalli R.Y., (2013). Energy balance and greenhouse gas emissions of biodiesel production from oil derived from wastewater and wastewater sludge. Renew Energy; Vol. 55, pp.392–403.
There are 34 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Serpil Savcı

Publication Date May 15, 2017
Published in Issue Year 2017

Cite

APA Savcı, S. (2017). TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS. Turkish Journal of Engineering, 1(1), 11-17. https://doi.org/10.31127/tuje.315927
AMA Savcı S. TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS. TUJE. May 2017;1(1):11-17. doi:10.31127/tuje.315927
Chicago Savcı, Serpil. “TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS”. Turkish Journal of Engineering 1, no. 1 (May 2017): 11-17. https://doi.org/10.31127/tuje.315927.
EndNote Savcı S (May 1, 2017) TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS. Turkish Journal of Engineering 1 1 11–17.
IEEE S. Savcı, “TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS”, TUJE, vol. 1, no. 1, pp. 11–17, 2017, doi: 10.31127/tuje.315927.
ISNAD Savcı, Serpil. “TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS”. Turkish Journal of Engineering 1/1 (May 2017), 11-17. https://doi.org/10.31127/tuje.315927.
JAMA Savcı S. TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS. TUJE. 2017;1:11–17.
MLA Savcı, Serpil. “TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS”. Turkish Journal of Engineering, vol. 1, no. 1, 2017, pp. 11-17, doi:10.31127/tuje.315927.
Vancouver Savcı S. TREATMENT OF BIODIESEL WASTEWATER USING YELLOW MUSTARD SEEDS. TUJE. 2017;1(1):11-7.
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