Domestic wastewater from non toilets is referred to as grey wastewater, domestic wastewater from bathing, washing and from the kitchen. Incubator Bisnis (INBIS) Permata Bunda is a forum for the application of entrepreneurial skills (apprenticeship) for people with disabilities residing in Kampung Aren, Bontang City, East Kalimantan. Grey wastewater treatment at INBIS Permata Bunda with a grease trap, filtration, sedimentation, anaerobic biofilter, aerobic biofilter, sedimentation and control. The research objective was to determine the effectiveness of INBIS Domestic WWTP to reduce organic pollutant loads based on the quality standard parameters of domestic wastewater from the Minister of Environment and Forestry Regulation No.P.68 of 2016 those are the parameters of pH, BOD, COD, TSS, fatty oil, ammonia, and total coliform. The domestic wastewater treatment process for grey wastewater has a reduced effectiveness ranging from 56.73% - 97.65% and has met the quality standards for the parameters, pH, BOD, COD, ammonia, fatty oil, and total coliform, but for TSS parameters and total coliform needs operational evaluation. Grey waterwater from the INBIS domestic wastewater treatment plant has the potential to become an alternative water source for watering plants (afforestation) if the processing results are in accordance with quality standards.
Bioconversion of municipal organic waste using Black Soldier Fly larvae provides potential benefits. Apart from reducing municipal solid waste, BSF larvae (maggot) offer valuable added value as animal feed. The purpose of this study was to analyze the potential of BSF larvae in the bioconversion process of municipal organic waste, to analyze the quality of the compost produced and to analyze the nutrition content of BSF larvae (maggot). BSF eggs in hatching are covered with gauze which are given organic waste feed, then after hatching they become BSF larvae transferred to enlargement media. BSF larvae are fed leftovers that enter the TPST, so that the enlargement medium is wet. Feeding leftovers from TPST is done every day. The rearing time for BSF larvae is for one life cycle. Maggot harvesting is carried out at the age of the larva about 2-3 weeks. The final products of organic waste bioconversion are BSF larvae (maggot), compost and POC. It was found that the BSF larvae (maggot) could reduce organic waste (municipal organic waste) by 47.75%. Where the ability of BSF larvae (maggot) to consume municipal organic waste is 26,1508 g waste / g maggot. The protein, crude fat and ash content in maggots which were given organic waste were 41.8%, 14.63% 9.12%, respectively.
AbstrakKaporit pada limbah cair rumah sakit digunakan sebagai desinfektan, tetapi, penggunaan kaporit dengan dosis yang tidak tepat akan menyebabkan pembentukan senyawa Trihalomethane (THMs) yang beracun dan bersifat karsinogenik. Pada limbah cair rumah sakit X Samarinda, diperoleh nilai MPN Coliform sebesar >160.000 MPN / 100 mL dengan residu klor sebesar 0 ppm. Penelitian ini bertujuan untuk menentukan dosis optimum dari penggunaan kaporit menggunakan titik Breakpoint Chlorination (BPC) dan pengaruhnya terhadap penurunan Coliform. Analisis dilakukan dengan titrasi iodometri dan menghitung jumlah bakteri Coliform memakai metode Most Probable Number (MPN). Penentuan dosis kaporit berdasarkan dosis optimum pada titik BPC dimaksudkan agar dapat menjaga residu klor dari penambahan dosis yang semakin meningkat. Hasil penelitian mempengarui rerata kadar bahan organik pada sampel limbah cair sebesar 137,26 ppm, sehingga dosis kaporit yang dibubuhkan dimulai dari 130-165 ppm. Titik BPC terjadi pada pembubuhan klor aktif 160 ppm untuk kedua waktu kontak yaitu 30 dan 40 menit. Pada titik BPC, waktu kontak 30 menit diperoleh rerata persentase penurunan nilai Coliform yaitu 98,21% sebesar 2.899 MPN / 100 mL dengan residu klor sebesar 88 ppm. Pada waktu kontak 40 menit diperoleh persentase penurunan bakteri Coliform hingga 98,83%, yaitu dari >160.000/100 mL menjadi 1.866/100 mL dengan residu klor 97,5 ppm.
This study aimed to determine the effect of reaction time and catalyst variations on the quality of biodiesel according to SNI 7182: 2015 determine the best reaction time and catalyst variations on the yield parameters, water content, viscosity, density, flash point, and methyl ester levels of biodiesel produced. Based on the research, the results show that the quality of biodiesel obtained for each parameter meets the SNI 7182: 2015 quality standards except for water content parameters that still exceed the quality standard limits. The best quality of biodiesel is shown in the variation of the reaction time of 120 minutes with KOH catalyst with a yield of 77.95%, moisture content of 0.2673%, density of 0.8669 gr/ml, the viscosity of 5.15 CST, flash point 174°C and levels of methyl esters 98.42%. Biodiesel from used cooking oil can be applied as renewable energy that is more environmentally efficient.<h1 style="margin: 0cm; margin-bottom: .0001pt; text-indent: 0cm; mso-list: none; tab-stops: 36.0pt;"><span style="mso-bidi-font-size: 11.0pt; text-transform: none; font-weight: normal; mso-bidi-font-weight: bold; mso-bidi-font-style: italic;" lang="EN-US">This study aimed to determine the effect of reaction time and catalyst variations on the quality of biodiesel according to SNI 7182: 2015 determine the best reaction time and catalyst variations on the yield parameters, water content, viscosity, density, flash point, and methyl ester levels of biodiesel produced. Based on the research, the results show that the quality of biodiesel obtained for each parameter meets the SNI 7182: 2015 quality standards except for water content parameters that still exceed the quality standard limits. The best quality of biodiesel is shown in the variation of the reaction time of 120 minutes with KOH catalyst with a yield of 77.95%, moisture content of 0.2673%, density of 0.8669 gr/ml, the viscosity of 5.15 CST, flash point 174°C and levels of methyl esters 98.42%. Biodiesel from used cooking oil can be applied as renewable energy that is more environmentally efficient.</span></h1>
Air asam tambang atau acid mine drainage merupakan air yang terbentuk di lokasi penambangan batubara dengan nilai pH yang rendah (pH<4). Adsorben yang berasal dari serbuk kayu dapat digunakan untuk pengolahan air asam tambang dengan parameter Fe, Mn, dan pH. Tujuan penelitian ini adalah untuk mengetahui kapasitas adsorpsi optimum dan efisiensi logam Fe dan Mn, serta perubahan kondisi pH limbah cair air asam tambang Metode penelitian yang digunakan pada penelitian ini adalah
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