International Journal of Sustainable Building, Infrastructure and Environment (IJOSBIE)

The tempe industry is a food industry that has the potential to pollute the environment from the liquid waste it produces. Liquid waste from the  tempe processing process if it is immediately disposed of without going through the  management process first will have an impact on environmental pollution. In Semarang City, precisely in Gunung Pati District, there is a medium-scale tempe processing factory. So far, the tempe factory's liquid waste is directly disposed of into a ditch behind  the  factory without processing the liquid waste first. This  research  is a quantitative research presented in the form of  numbers     and then explained in the form of descriptions. From the results of the wastewater quality test, the pollutant parameters BOD = 369 mg/L; COD = 28,000 mg/L; TSS  =  0.991 mg/L; and pH = 4.3. According to the Regional Regulation of the Province of Central Java Number 5 of 2012 concerning Amendments to the Regional Regulation of the Province of Central Java Number 10 of 2004, this value still does not meet the requirements. The wastewater treatment plant that the  researchers are planning is in the form of a holding tank;  Equalization Tub; Anaerobic Digesters; Gas Holder; Initial Settling Tub; Anaerobic Biofilter using bioball filter media and steel nets as a barrier for bioballs where bacteria are grown; and Final Settling Tank. With an estimated effluent from the processing of BOD, COD, and TSS of 7.47225 mg/L; 189mg/L; and 0.00669 mg/L which means it meets the quality standard. From the planning  results, it was obtained that the total budget plan for planning the tempe factory wastewater treatment plant was Rp. 111.280.021,49.

Arnold, P. W., Nainggolan, P., &; Damanik, D. (2020). Business Feasibility Analysis and Development Strategy of Tempe Small Industry in Kelurahan Setia Negara, Siantar Sitalasari District. Journal of Equilibrium, 2(1), 29-39.

Anonymous. 1994. Decree of the Governor of East Java Number 136 of 1994 concerning Quality Standards for Industrial Liquid Waste and / or Other Business Activities.

Askari, H. (2015). The development of wastewater treatment. Carbon (TOC), 200(135), 1-10.

Ayuni, S., &; Putri, E. S. (2022). Waste Management of Household Tempeh Industry in Meurebo District, West Aceh Regency. Journal of Public Health Students (Jurmakemas), 2(2), 288-307.

National Standardization Agency. (2004). SNI 06-6989.3-2004 Water and Wastewater – Part 3: How to test total suspended solids (TSS) gravimetrically.

National Standardization Agency. (2008). S

NI 6989.59:2008 Water and Wastewater – Part 59: Wastewater sampling methods.

National Standardization Agency. (2009). SNI 6989.2:2009 Water and Wastewater – Part 2: How to test Chemical Oxygen Demand (COD) with spectrophotometric closed reflux.

National Standardization Agency. (2009). SNI 6989.72:2009: Water and wastewater part 72: How to test biochemical oxygen demand (BOD).

National Standardization Agency. (2019). SNI 6989.11:2019 Water and Wastewater – Part 11: How to test the degree of acidity (pH) using a pH meter.

Coal, G. O. (2017). Planning of Medical Wastewater Treatment Plant and WWTP Effluent Recycling in Class C Hospital. S-1 Final Project, Department of Environmental Engineering ITS Surabaya.

Chintia Rani, Dhenoq. 2019. PLANNING OF TEMPEH INDUSTRY WASTEWATER TREATMENT PLANT (WWTP) WITH ANAEROBIC DIGESTER AND ANAEROBIC – AEROBIC BIOFILTER IN AIKMUAL VILLAGE, CENTRAL LOMBOK REGENCY. Mataram : University of Mataram

Connell, D.W. and G.J. Miller. 1995. Environmental chemistry and ecotoxicology. UI Press. Jakarta.

Dewi Saidatul Munadhifah, S. H. P. (2018). PROCEEDINGS HEFA (Health Events for All). The relationship between family support and oral hygiene independence of children with disabilities at Kaliwungu Kudus State Special School, PROCEEDINGS, 89–100.

Public Works Office of Bina Marga and Cipta Karya of Central Java Province. "MAS PETRUK, UNIT PRICE OF WORK (HSP) CONSTRUCTION IN THE FIELD OF CREATION AND HOUSING, 1st Edition of 2022". Retrieved March 10, 2023 from http://maspetruk.dpubinmarcipka.jatengprov.go.id/harga_satuan/hspk#.

Fitri, R. F., Fithanah, U., &; Said, M. (2017). The effect of inoculum dose and moringa seeds in tempeh liquid waste treatment using trickling bed filter. Journal of Chemical Engineering, 23(2), 120-128.

Frank R. Spellman. (2011). Handbook of Water and Wastewater Treatment Plant Operations. Boca Raton: CRC Press.

Harahap Sampe, 2013. Pollution of Waters Due to High Ammonia Levels from Tempeh Industry Liquid Waste. Journal of Aquatics. Vol.4 No. 2 p. 183-194.

Hartaja, D. R. K., &; Setiadi, I. (2016). Design planning of nata de coco industrial waste treatment plant with activated sludge process. J. Environmental Engineering, 9(2), 97-112.

Hidayati, S. S. (2017). Study of Planning of Wastewater Treatment Plant (WWTP) FIT Malang Tofu Factory with Anaerobic Digester and Anaerobic-Aerobic Biofilter (Doctoral dissertation, Universitas Brawijaya).

Hudha, M. I., Jimmy, and Muyassaroh. 2014. Study of COD and TSS Reduction of Tofu Industry Liquid Waste Using Electrochemical Processes. Proceedings of the National Seminar on Chemistry. Surabaya.

Ministry of Health, R. (2011). Environmental Sanitation Series: Technical Guidelines for Wastewater Treatment Plants with Aerobic Anaerobic Biofilter Systems in Health Care Facilities. Ministry of Health of the Republic of Indonesia, Directorate General of Health Efforts

Ministry of Environment (2014). Regulation of the Minister of Environment Number 5 of 2014 concerning Wastewater Quality Standards.Jakarta.

Marsidi, R., &; Said, N. I. (2011). THE PROBLEM OF MICROPOLLUTANTS IN DRINKING WATER AND HOW TO DEAL WITH THEM. Air Indonesia Journal, 1(2).

Metcalf and Eddy, Inc. (2003). Wastewater Engineering: Treatment and Reuse. New York: McGraw-Hill Education.

Mubin, F., Binilang, A., &; Halim, F. (2016). Planning of a domestic wastewater treatment system in Istiqlal Village, Manado City. Journal of Civil Statics, 4(3).

Ultimate, A. W. (2017). Typical Design of Tofu Small Industry Wastewater Treatment Plant (IKRT) in Surabaya City.

Government of Indonesia. 2009. Law of the Republic of Indonesia Number 32 of 2009 concerning Environmental Protection and Management. Jakarta: State Secretariat.

Purnama, S. G., &; SKM, M. (2016). Tempeh Industry Liquid Waste Impact Analysis Module in Denpasar. Public Health Study Program. Faculty of Medicine, Udayana University. Bali.

Ren, H., Wu, X., Liu, X., Ma, F., Zhao, L., Huang, Y., ... & Jia, J. (2015). Effect of different biofilter media on methane emissions and bacterial community structure during the treatment of simulated industrial wastewater containing toluene. Journal of hazardous materials, 296, 166-174.

Said, N. I. (2011). Domestic Waste Management. Jakarta: BPPT

Said, N. I. (2017). Wastewater Treatment Technology: Theory and Application. Jakarta:Erlangga

Sakinah, D. S., &; Purwanti, I. F. (2018). WWTP Planning for Household Scale Food Industry Liquid Waste Treatment. ITS Engineering Journal, 7(1), D12-D17. SNI 6989.72:2009 Water and wastewater – Part 72: How to test Biochemical Oxygen Demand (BOD).

Sarwono. 1989. Making Tempeh and Oncom, Small Industry Series. Self-help Spreader.Jakarta.

Tersiana, A. (2018). Research methods. Great Indonesian Children.

Wagiman., Suryandono, Ag. 2004. Study of the combination of anaerobic baffled reactor (ABR) and activated sludge system for tofu liquid waste treatment. UGM Research Institute. Jogjakarta.

Wardhana, W.A. 2004. Impact of Environmental Pollution. Andy Publishers. Yogyakarta.

Wardoyo, S.T.H. 1975. Water Quality Management. IPB. Bogor.