References
- K. Valta, T. Kosanovic, D. Malamis, K. Moustakas, M. Loizidou,
Overview of water usage and wastewater management
in the food and beverage industry, Desal. Water Тreat., 53 (2014)
1–13.
- N.C. Apatie, Master of Science Thesis, Evaluation of a MBR for
Treating Slaughterhouse Wastewater in Montevideo, Uruguay,
Delft, 2016.
- M. Djogo, Z. Mirosavljevic, M. Stosic, Z. Cepic, N. Zivancev,
D. Milovanovic, D. Adamovic, Meat industry wastewater
management in Vojvodina region (Serbia) - current situation,
Acta Tech. Corviniensis Bull. Eng., 9 (2016) 31–36.
- T. Kupusovic, S. Midzic, I. Silajdzic, J. Bjelavac, Cleaner
production measures in small-scale slaughterhouse industry
- case study in Bosnia and Herzegovina, J. Cleaner Prod.,
15 (2007) 378–383.
- R.M.M. Ziara, S. Li, J. Subbiah, B.I. Dvorak, Characterization of
wastewater in two U.S. cattle slaughterhouses, Water Environ.
Res., 90 (2018) 851–863.
- M. Barbera, G. Gurnari, Wastewater Treatment and Reuse in the
Food Industry, Chemistry of Food, Springer Briefs in Molecular
Science, Springer, 2018.
- C.F. Bustillo-Lecompte, M. Mehrvar, E. Quiñones-Bolaños, Costeffectiveness
analysis of TOC removal from slaughterhouse
wastewater using combined anaerobic-aerobic and UV/H2O2
Processes, J. Environ. Manage., 134 (2014) 145–152.
- P.W. Gerbens-Leenes, M.M. Mekonnen, A.Y. Hoekstra, The
water footprint of poultry, pork and beef: a comparative study
in different countries and production systems, Water Resour.
Ind., 1–2 (2013) 25–36.
- C. Palomares-Rodríguez, S.I. Martínez-Guido, J. Apolinar-
Cortés, M. del Carmen, C.-Parga, C.C. García-Castillo, J.M. Ponce-
Ortega, Environmental, technical, and economic evaluation of
a new treatment for wastewater from slaughterhouses, Int. J.
Environ. Res., 11 (2017) 535–545.
- M.R. Johns, Developments in wastewater treatment in the
meat processing industry: a review, Bioresour. Technol.,
54 (1995) 203–216.
- F. Orssatto, M.H.F. Tavares, F.M. da Silva, E. Eyng, B.F. Biassi,
L. Fleck, Optimization of the pretreatment of wastewater from
a slaughterhouse and packing plant through electrocoagulation
in a batch reactor, Environ. Technol., 38 (2017) 2465–2475.
- C.F. Bustillo-Lecompte, M. Mehrvar, Slaughterhouse
wastewater characteristics, treatment, and management in the
meat processing industry: a review on trends and advances,
J. Environ. Manage., 161 (2015) 287–302.
- M. Warnecke, T. Farrugia, C. Ferguson, Review of Abattoir
Water Usage Reduction, Recycling and Reuse, Meat & Livestock
Australia Limited, North Sydney, NSW, 2008.
- N. Flugaur, Wastewater Effluent Treatments and Control
Technologies in the Beef Processing Industry, The Graduate
College University of Wisconsin – Stout, 2003. Available at: https://core.ac.uk/download/pdf/5066296.pdf, accessed: 05.07.2019.
- European Commission (2005) Reference Document on Best
Available Techniques in the Slaughterhouses and Animal
By-products Industries.
- Environment Agency, The Red Meat Processing (Cattle, Sheep
and Pigs) Sector (EPR 6.12), 2009.
- I. Malollaria, l. Pingulia, Р. Buzob, В. Lajqic, С. Makollic,
Xh. Cania, Actual situation of wastewater from food industry
and a case study of their treatment, J. Environ. Prot. Ecol.,
20 (2019) 432–438.
- Μ. Farzadkia, F. Vanani, S. Golbaz, S. Sajadi, E. Bazrafshan,
Characterization and evaluation of treatability of wastewater
generated in Khuzestan livestock slaughterhouses and
assessing of their wastewater treatment systems, Global Nest J.,
18 (2016) 1–10.
- M. Barrera, M. Mehrvar, K.A. Gilbride, M. Mehrvar, L. McCarthy,
Photolytic treatment of organic constituents and bacterial
pathogens in secondary effluent of synthetic slaughterhouse
wastewater, Chem. Eng. Res. Des., 90 (2012) 1335–1350.
- R. Almeida, C. Santos, T. Lüders, V. Del Nery, Nitrogen
removal by simultaneous partial nitrification, anammox and
denitrification (SNAD) in a structured-bed reactor treating
animal feed processing wastewater: inhibitory effects and
bacterial community, Int. Biodeterior. Biodegrad., 133 (2018)
108–115.
- Budiyono, I.N. Widiasa, S. Johari, S. Sunarso, Study on
slaughterhouse waste potency and characteristic for biogas
production, Int. J. Water Resour., 1 (2011) 4–7.
- E. Bazrafshan, F. Mostafapour, F. Mahdi, K. Ownagh,
Slaughterhouse wastewater treatment by combined chemical
coagulation and electrocoagulation process, PLoS One, 7 (2012)
e40108, https://doi.org/10.1371/journal.pone.0040108.
- A. Sarairah, A. Jamrah, Characterization and assessment of
treatability of wastewater generated in Amman slaughterhouse,
Dirasat Eng. Sci., 35 (2010) 71–83.
- S. Midzic-Kurtagic, I. Silajdzic, T. Kupusovic, Mapping of
environmental and technological performance of food and
beverage sector in Bosnia and Herzegovina, J. Cleaner Prod., 18
(2010) 1535–1544.
- A. Aziz, F. Basheer, A. Sengar, Irfanullahb, S. Khan,
I. Farooqi, Biological wastewater treatment (anaerobic-aerobic)
technologies for safe discharge of treated slaughterhouse and
meat processing wastewater, Sci. Total Environ., 86 (2019)
681–708.
- N.Z. Al-Mutairia, F.A. Al-Sharifib, S.B. Al-Shammaric,
Evaluation study of a slaughterhouse wastewater treatment
plant including contact-assisted activated sludge and DAF,
Desalination, 225 (2008) 167–175.
- S. Casani, M. Rouhany, S. Knøchel, A discussion paper on
challenges and limitations to water reuse and hygiene in the
food industry, Water Res., 39 (2005) 1134–1146.
- C. Banks, Z. Wang, Treatment of Meat Wastes, University of
Southampton, Southampton, England, 2006.
- A. Oliveira, A. Barata, A. Batista, L. Gouveia, Scenedesmus
obliquus in poultry wastewater bioremediation, Environ.
Technol., 40 (2018) 1–23.
- C.F. Bustillo-Lecompte, M. Mehrvar, Treatment of actual
slaughterhouse wastewater by combined anaerobic–aerobic
processes for biogas generation and removal of organics and
nutrients: an optimization study towards a cleaner production in
the meat processing industry, J. Cleaner Prod., 141 (2017) 278–289.
- E. Baddour, N. Farhoud, M. Sharholy, I. Abdel-Magid, Biological
treatment of poultry slaughterhouses wastewater by using
aerobic moving bed biofilm reactor, Int. Res. J. Public Environ.
Health, 3 (2016) 96–106.
- R.F. De Sena, J.L. Tambosi, A.K. Genena, R. de F.P.M. Moreira,
H.F. Schröder, H.J. José, Treatment of meat industry wastewater
using dissolved air flotation and advanced oxidation processes
monitored by GC–MS and LC–MS, Chem. Eng. J., 152 (2009)
151–157.
- H. Zamania, H.A. Golestanib, S.M. Mousavic, R. Zhianid,
M.S. Hosseinie, Slaughterhouse wastewater treatment using
biological anaerobic and coagulation-flocculation hybrid
process, Desal. Water Treat., 155 (2019) 64–71.
- European Commission, Kick-off Meeting for the Review of the
Best Available Techniques (BAT) Reference Document for the
Slaughterhouses and Animal by-product Industries - Meeting
Report, 2019.
- B. Gulan, Market share of meat and meat products, Econ. Rev.,
11 (2014) 9–13.
- Yearbook, Statistical Yearbook of the Republic of Serbia,
Statistical Office of the Republic of Serbia, Serbia, Belgrade,
2014.
- I. Djekic, B. Blagojevic, D. Antic, S. Cegar, I. Tomasevic,
Assessment of environmental practices in Serbian meat
companies, J. Cleaner Prod., 112 (2016) 2495–2504.
- Republic of Serbia, Ministry of Economy, Overview of the
Current Situation with the SWOT Analysis for the Food
Industry in Serbia, 2017.
- Development Agency of Serbia, Serbia Food, 2017.
- Republic of Serbia, The Statistical Office of the Republic of
Serbia, Available: http://www.stat.gov.rs/en-US/, accessed
02.07.2019.
- I. Tomasevic, N. Smigic, I. Ðekic, V. Zaric, N. Tomic,
N.A. Rajkovic, Serbian meat industry: a survey on food safety
management systems implementation, Food Control, 32 (2013)
25–30.
- World Helath Organization Europe, Environmentand Health
Performance Review – Serbia, 2009.
- Decree on Emission Limit Values of Pollutants in Water and
Deadlines for their Achievement, Official Gazette of the RS
No. 67/11, 48/12 and 1/2016 (in Serbian).
- World Bank Group Environmental, Health and Safety (EHS)
Guidelines for Meat Processing, General EHS Guidelines,
Environmental Wastewater and Ambient Water Quality,
2007.
- Council of the European Communities (CEC) Urban Wastewater Treatment Directive 91/271/EEC, Off J Eur Communities L (135),
1991.
- Rulebook for Methods and Conditions of Quantity
Measurement and Wastewater Quality Testing and the Content
of the Report on Performed Measurements, Official Gazette of
the RS No. 33/2016 (in Serbian).
- Environment Agency, The Red Meat Processing (Cattle, Sheep
and Pigs) Sector (EPR 6.12), Environment Agency, Rio House,
Bristol, 2009.
- R. Grujić, M. Jašić, Sustainable Technologies in Food Industry–
Book 2, European Commission, TEMPUS, 2010.
- Central Pollution Control Board, Ministry of Environment,
Forest and Climate Change, Government of India, Delhi,
Available at: (https://www.cpcb.nic.in/, accessed 02.11.2019).
- P.F. Wu, G.S. Mittal, Characterization of provincially inspected
slaughterhouse wastewater in Ontario, Canada, Can. Biosyst.
Eng., 54 (2012) 6.9–6.18.
- C.F. Bustillo-Lecompte, M. Mehrvar, Slaughterhouse Wastewater:
Treatment, Management and Resource Recovery,
R. Farooq, Z. Ahmad, Physico-Chemical Wastewater Treatment
and Resource Recovery, InTech Open, 2017, pp. 153–174.
- R. Loganath, D. Mazumder, Performance study on organic
carbon, total nitrogen, suspended solids removal and biogas
production in hybrid UASB reactor treating real slaughterhouse
wastewater, J. Environ. Chem. Eng., 6 (2018) 3474–3484.
- M. Tansengco, D. Herrer, J. Tejano, M. Yao, H.R. Beraye,
R. Esguerra, Biological treatment of meat processing wastewater
using anaerobic sequencing batch reactor (ASBR), Int. Res.
J. Biol. Sci., 4 (2016) 66–75.
- M. Henze, M. Van Loosdrecht, G.A. Ekama, D. Biological
Wastewater Treatment: Principles, Modeling and Design, The
International Water Association (IWA) Publishing, Cambridge
University Press, London, 2008.
- A. Khambete, R. Christian, Statistical analysis to identify the
main parameters to effecting WWQI of sewage treatment plant
and predicting BOD, Int. J. Res. Eng. Technol., 3 (2014) 186–195.
- D. Muhirwa, I. Nhapi, G. Wali, N. Banadda, J. Kashaigili,
R. Kimwaga, Characterization of wastewater from an Abattoir
in Rwanda and the impact on downstream water quality, Int.
J. Ecol. Dev., 16 (2010) 30–46.
- A. Mulu, T. Ayenew, Characterization of abattoir wastewater
and evaluation of the effectiveness of the wastewater treatment
systems in Luna and Kera abattoirs in Central Ethiopia, Int. J.
Sci. Eng. Res., 6 (2015) 1026–1040.
- K.Z. Abdallaa, G. Hammam, Correlation between biochemical
oxygen demand and chemical oxygen demand for various
wastewater treatment plants in Egypt to obtain the
biodegradability indices, Int. J. Sci. Basic Appl. Res., 13 (2014)
42–48.
- S. Karefa, A. Kettaba, D. Loudyib, M.C. Bruzzonitic,
M.D. Bubbad, F.A. Nouhe, N. Boujelbenf, L. Mandie, Pollution
parameters and identification of performance indicators for
wastewater treatment plant of Medea (Algeria), Desal. Water
Treat., 65 (2017) 192–198.
- M. Milanovic, I. Mihajlovic, S. Pap, M. Brboric, M. Djogo,
N. Grujic Letic, Z. Njezic, N. Milic, Necessity of meat-processing
industry’s wastewater treatment - a one-year trial in Serbia,
Desal. Water Treat., 57(34) (2016) 15806-15812.