A pilot model for slaughterhouse wastewater treatment using Moringa oleifera seed husks, pods and extract followed by aeration

Al-Wasify R.S.; Mahmoud A.K.; Hamed S.R.; Abdelaziz I.E.; Hamed S.R.

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dc.contributor.author	Al-Wasify R.S.
dc.contributor.author	Mahmoud A.K.
dc.contributor.author	Hamed S.R.
dc.contributor.author	Abdelaziz I.E.
dc.contributor.author	Hamed S.R.
dc.contributor.other	Water Pollution Research Department
dc.contributor.other	National Research Centre
dc.contributor.other	Dokki
dc.contributor.other	Giza
dc.contributor.other	Egypt; Faulty of Pharmacy
dc.contributor.other	Cairo University
dc.contributor.other	Giza
dc.contributor.other	Egypt; Faculty of Biotechnology
dc.contributor.other	October University for Modern Sciences and Arts
dc.contributor.other	6th October City
dc.contributor.other	Egypt; Faculty of Pharmacy and Drug Technology
dc.contributor.other	Heliopolis University for Sustainable Development
dc.contributor.other	Egypt; Microbial Biotechnology Department
dc.contributor.other	National Research Centre
dc.contributor.other	Dokki
dc.contributor.other	Giza
dc.contributor.other	Egypt
dc.date.accessioned	2020-01-09T20:40:45Z
dc.date.available	2020-01-09T20:40:45Z
dc.date.issued	2019
dc.identifier.issn	18196608
dc.identifier.uri	https://t.ly/DXXky
dc.description	Scopus
dc.description.abstract	Untreated slaughterhouse wastewater contains high concentrations of organic matters, suspended solids, and pathogenic microorganisms which have destroying effects on the environment. Thus, slaughterhouse wastewater should be treated properly before discharging into the environment. A pilot model was installed that consisted of three treatment stages; bioadsorption, coagulation and aeration. The first stage used Moringa oleifera seed husks and pods as a bioadsorbent. The second stage used M. oleifera seeds extract as natural coagulant and followed by the third stage (aeration stage). M. oleifera seed husks and pods proved a good ability to remove total suspended solids (TSS), total bacterial count (TBC), total coliforms (TC) and Escherichia coli, without significant removal of organic matters. A significant increase in organic matters represented in chemical oxygen demand (COD), biological oxygen demand (BOD), total Kjeldahl nitrogen (TKN) and total phosphorus (TP) concentrations after the coagulation stage. The aeration stage succeeded to remove this occurred increase in the coagulation stage. The overall average removal percent after aeration stage were 95.68%, 95.89%, 70.15%, 82.98%m 83.91%, 90.49%, 90.58% and 88.66% for COD, BOD, TSS, TKN, TP, TBC, TC and E. coli, respectively. The obtained results indicated the suitability of using M. oleifera seed husks, pods, and extracts for slaughterhouse wastewater treatment. � 2006-2019 Asian Research Publishing Network (ARPN).	en_US
dc.language.iso	English	en_US
dc.publisher	Asian Research Publishing Network	en_US
dc.relation.ispartofseries	ARPN Journal of Engineering and Applied Sciences
dc.relation.ispartofseries	14
dc.subject	Bioadsorption	en_US
dc.subject	Moringa oleifera	en_US
dc.subject	Natural coagulants	en_US
dc.subject	Physicochemical treatment	en_US
dc.subject	Slaughterhouse wastewater	en_US
dc.title	A pilot model for slaughterhouse wastewater treatment using Moringa oleifera seed husks, pods and extract followed by aeration	en_US
dc.type	Article	en_US
dcterms.isReferencedBy	Adeniran, K.A., Akpenpuun, T.D., Akinyemi, B.A., Wasiu, R.A., Effectiveness of Moringa oleifera seed as a coagulant in domestic wastewater treatment (2017) African Journal of Science, Technology, Innovation and Development; Aguilar, M.I., Saez, J., Llorens, M., Soler, A., Ortuno, J.F., Meseguer, V., Fuentes, A., Improvement of coagulation-flocculation process using anionic polyacrylamide as coagulant aid (2005) Chemosphere, 58, pp. 47-56; Al-Mutairi, N.Z., Hamoda, M.F., Al-Ghusain, I.A., Slaughterhouse wastewater treatment using date seeds as adsorbent (2007) J. Environ. Sci. Health, 55, pp. 678-710; Al-Mutairi, N., Hamoda, M., Al-Ghusain, I., Performance-based characterization of a contact stabilization process for slaughterhouse wastewater (2003) J. Environ. Sci. Health, Part A-Toxic/Hazard. Subst. & Environ. Eng, 38 (10), pp. 2287-2300; Al-Mutairi, N.Z., Hamoda, M.F., Al-Ghusain, I., Coagulant selection and sludge conditioning in a slaughterhouse wastewater treatment plant (2004) Biores. Technol, 95 (2), pp. 115-119; Al-Mutairi, N.Z., Reusing date seed residues as a low-cost adsorbent for slaughterhouse wastewater purification (2010) Int. J. Environ. Waste Manag, 6 (3-4), pp. 393-409; Al-Mutairi, N.Z., Al-Sharifi, F.A., Al-Shammari, S.B., Evaluation study of a slaughterhouse wastewater treatment plant including contact-assisted activated sludge and DAF (2008) Desalination, 225 (1), pp. 167-175; Alo, M.N., Anyim, C., Elom, M., Coagulation and antimicrobial activities of Moringa oleifera seed storage at 3 �C temperature in turbid water (2012) Adv. Appl. Sci. Res, 3, pp. 887-894; (2010) Standard Methods for the Examination of Water and wastewater, , (22nd ed.). Washington, DC: American Public Health Association/American Water Works Association/Water Pollution Control Federation; Amuda, O.S., Alade, A., Coagulation/flocculation process in the treatment of abattoir wastewater (2006) Desalination, 196, pp. 22-31; Aniebo, A.O., Wekhe, S.N., Okoli, I.C., Abattoir blood waste generation in rivers state and its environmental implications in the Niger Delta (2009) Toxicol. Environ. Chemist, 91 (4), pp. 619-625; Arafat, M.G., Mohamed, S.O., Preliminary study on efficacy of leaves, seeds and bark extracts of Moringa oleifera in reducing bacterial load in water (2013) Int. J. Adv. Res, 1, pp. 124-130; Barrera, M., Mehrvar, M., Gilbride, K., McCarthy, L., Laursen, A., Bostan, V., Pushchak, R., Photolytic treatment of organic constituents and bacterial pathogens in secondary effluent of synthetic slaughterhouse wastewater (2012) Chem. Eng. Res. Des, 90 (9), pp. 1335-1350; Bello, Y.O., Oyedemi, D.T.A., Impact of abattoir activities and management in residential neighborhoods: a case study of Ogbomoso, Nigeria (2009) J. Social Sci, 19, pp. 121-127; Beltr�n-Heredia, J., S�nchez-Mart�n, J., Improvement of water treatment pilot plant with Moringa oleifera extract as flocculant agent (2009) Environ. Technol, 30 (6), pp. 525-534; Bustillo-Lecompte, C.F., Mehrvar, M., Slaughterhouse wastewater characteristics, treatment, and management in the meat processing industry: A review on trends and advances (2015) J. Environ. Manag, 161, pp. 287-302; Bustillo-Lecompte, C.F., Mehrvar, M., Qui�ones-Bola�os, E., Combined anaerobic-aerobic and UV/H=O2 processes for the treatment of synthetic slaughterhouse wastewater (2013) J. Environ. Sci. Health A, 48 (9), pp. 1122-1135; Bustillo-Lecompte, C.F., Mehrvar, M., Qui�ones-Bola�os, E., Cost-effectiveness analysis of TOC removal from slaughterhouse wastewater using combined anaerobic-aerobic and UV/H2O2 processes (2014) J. Environ. Manag, 134, pp. 145-152; Bustillo-Lecompte, C.F., Mehrvar, M., Qui�ones-Bola�os, E., Slaughterhouse wastewater characterization and treatment: an economic and public health necessity of the meat processing industry in Ontario, Canada (2016) J. Geosci. Environ. Protec, 4, pp. 175-186; Chernicharo, C., Post-treatment options for the anaerobic treatment of domestic wastewater (2006) Rev. Environ. Sci. Biotechnol, 5 (1), pp. 73-92; Feng, H., Hu, L., Mahmood, Q., Fang, C., Qiu, C., Shen, D., Effects of temperature and feed strength on a carrier anaerobic baffled reactor treating dilute wastewater (2009) Desalination, 238 (1-3), pp. 111-121; Ferreira, P.M.P., Farias, D.F., Oliveira, J.T.D.A., Carvalho, A.D.F.U., Moringa oleifera: bioactive compounds and nutritional potential (2008) Rev. Nutr, 21, pp. 431-437; Flaten, P., Aluminium as a risk factor in Alzheimer's disease, with emphasis in drinking water (2001) Brain Res. Bull, 55, pp. 187-196; Fongsatitkul, P., Wareham, D.G., Elefsiniotis, P., Charoensuk, P., Treatment of a slaughterhouse wastewater: effect of internal recycle rate on chemical oxygen demand, total Kjeldahl nitrogen and total phosphorus removal (2011) Environ. Technol, 32 (15), pp. 1755-1759; Garcia-Fayos, B., Arnal, J.M., Piris, J., Sancho, M., Valorization of Moringa oleifera seed husk as biosorbent: isotherm and kinetics studies to remove cadmium and copper from aqueous solutions (2016) Desalination and Water Treatment; Gauri, S.M., Treatment of wastewater from abattoirs before land application: a review (2006) Bioresour. Technol, 97 (9), pp. 1119-1135; Gerbens-Leenes, P.W., Mekonnen, M.M., Hoekstra, A.Y., The water footprint of poultry, pork and beef: a comparative study in different countries and production systems (2013) Water Resour. Ind, 1-2, pp. 25-36; Ghebremichael, K.A., Gunaratna, K.R., Henrikson, H., Burmer, H., Dalhammar, G., A simple purification and activity assay for the coagulant protein from Moringa oleifera seed (2005) Water Res, 32, pp. 2338-2344; Gopala Krishna, G.V.T., Kumar, P., Kumar, P., Treatment of low-strength soluble wastewater using an anaerobic baffled reactor (ABR) (2009) J. Environ. Manag, 90 (1), pp. 166-176; Isitua, C.C., Ibeh, I.N., Olayinka, J.N., Antibacterial Activity of Moringa Oleifera Lam leaves on enteric human pathogens (2016) Indian J. Appl. Res, 6 (8), pp. 553-557; Kalavathy, M.H., Miranda, L.R., Moringa oleifera-A solid phase extractant for the removal of copper, nickel and zinc from aqueous solutions (2010) Chem. Eng. J, 158 (2), pp. 188-199; Katayon, S., Noor, M.J.M., Asma, M., Ghani, L.A., Thamer, A.M., Azni, A.M.I., Ahmad, J., Suleyman, A.M., Effects of storage conditions of Moringa oleifera seeds on its performance in coagulation (2006) Bioresour. Technol, 97, pp. 1455-1460; Khosravi, A.D., Behzadi, A., Evaluation of the antibacterial activity of the seed hull of Quercus brantii on some gram-negative bacteria (2006) Paki. J. Medical Sci, 22 (4), pp. 429-432; Liu, Y., Kang, X., Li, X., Yuan, Y., Performance of aerobic granular sludge in a sequencing batch bioreactor for slaughterhouse wastewater treatment (2015) Bioresour. Technol, 190, pp. 487-491; Mahtab, A., Tariq, M., Shafiq, T., Nasir, A., Coagulation/adsorption combined treatment of slaughterhouse wastewater (2009) Desalination and Water Treatment, 12 (1-3), pp. 270-275; Mart�n, C., Moure, A., Mart�n, G., Carrillo, E., Dom�nguez, H., Paraj�, J.C., Fractional characterisation of jatropha, neem, moringa, trisperma, castor and candlenut seeds as potential feedstocks for biodiesel production in Cuba (2010) Biomass and Bioenergy, 34 (4), pp. 533-538; Mataka, L.M., Sajidu, S.M.I., Masamba, W.R.L., Mwatseteza, J.F., Cadmium sorption by Moringa stenopetala and Moringa oleifera seed powders: batch, time, temperature, pH and adsorption isotherm studies (2010) Int. J. Water Res. Environ. Eng, 2, pp. 50-59; Ndabigengesere, A., Narasiah, K.S., Use of Moringa oleifera seeds as a primary coagulant in wastewater treatment (1998) Environ. Technol, 19, pp. 789-800; Ndabigengesere, A., Narasiah, K.S., Quality of water treated by coagulation using Moringa oleifera seeds (1998) Water Res, 32, pp. 781-791; Okuda, T., Baes, A.U., Nishijima, W., Okada, M., Isolation and characterization of coagulant extracted from Moringa oleifera seed by salt solution (2001) Water Res, 35, pp. 405-410; Onsare, J.G., Kaur, H., Arora, D.S., Antimicrobial activity of Moringa oleifera from different locations against some human pathogens (2013) Acad. J. Med. Plants, 1 (5), pp. 080-091; Pab�n, S.L., G�lvez, J.H.S., Starting-up and operating a full-scale activated sludge system for slaughterhouse wastewater (2009) Ing. Invest, 29 (2), pp. 53-58; Pan, M., Henry, L.G., Liu, R., Huang, X., Zhan, X., Nitrogen removal from slaughterhouse wastewater through partial nitrification followed by denitrification in intermittently aerated sequencing batch reactors at 11�C.Environ (2014) Technol, 35 (4), pp. 470-477; San Jos�, T., Bird slaughterhouse: generation and purification of their water (2004) Tecnologia del Agua, 24 (251), pp. 48-51; Senthilkumaar, S., Bharathi, S., Nithyanandhi D.andSubburam, V., Biosorption of toxic heavy metals from aqueous solutions (2000) Bioresour. Technol, 75, pp. 163-165; Shan, T.C., Al Matar, M., Makky, E.A., Ali, E.N., The use of Moringa oleifera seed as a natural coagulant for wastewater treatment and heavy metals removal (2017) Appl. Water Sci, 7, pp. 1369-1376; Sroka, E., Kamfliski, W., Bohdziewicz, J., Biological treatment of meat industry wastewater (2004) Desalination, 162, pp. 85-91; Tritt, W.P., Schuchardt, F., Materials flow and possibilities of treating liquid and solid wastes from slaughterhouses in Germany (1992) A review. Bioresour. Technol, 41 (3), pp. 235-245; (2004) United States Environmental Protection Agency, effluent limitations guidelines and new source performance standards for the meat and poultry products point source category [Internet], , https://federalregister.gov/a/04-12017, 2004 [Updated: 2004-10-08]; Vunain, E., Biswick, T., Adsorptive removal of methylene blue from aqueous solution on activated carbon prepared from Malawian baobab fruit shell wastes: equilibrium, kinetics and thermodynamic studies (2018) Separation Sci. Technol
dcterms.source	Scopus
dc.Affiliation	October University for modern sciences and Arts (MSA)