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"[ABSTRAKLimbah lumpur yang dihasilkan dari Instalasi Pengolahan Air Limbah (IPAL) Domestik dapat dimanfaatkan melalui pengomposan karena mengandung kandungan organik yang tinggi. Namun, kandungan logam berat pada limbah lumpur dapat menjadi penyebab utama timbulnya dampak negatif pada lingkungan dan kesehatan manusia. Tujuan dari penelitian ini adalah untuk menganalisis perubahan parameter fisik-kimia, konsentrasi dan spesiasi kimia logam Cu dan Pb pada dua campuran kompos sebagai penilaian kelayakan kedua kompos untuk digunakan sebagai pupu. Hasil penelitian menunjukkan bahwa parameter suhu, pH, dan rasio C/N pada kedua kompos telah memenuhi kualitas kompos sesuai SNI 19-7030-2004. Konsentrasi logam Cu pada kompos 1 dan kompos 2 berturut-turut adalah 150 mg/kg dan 237 mg/kg, sedangkan konsentrasi logam Pb sebesar 224 mg/kg dan 183 mg/kg. Besar konsentrasi kedua logam pada kedua kompos menghasilkan faktor resiko ekologi yang masuk ke dalam kategori resiko rendah (Er < 40). Selain itu, proses pengomposan pada penelitian ini telah mengurangi efek toksisitas kedua logam. Pada akhir pengomposan, fraksi logam Cu pada kedua kompos dominan pada fraksi organic bound yaitu sebesar 63,50% untuk kompos 1 dan 56,20% untuk kompos 2. Sedangkan logam Pb dominan pada fraksi residual yaitu sebesar 62,10% pada kompos 1 dan 71,50% pada kompos 2. Kedua fraksi ini merupakan fraksi stabil sehingga keberadaan logam Cu dan Pb tidak memberikan dampak negatif bagi lingkungan jika kedua kompos diaplikasikan ke tanah.

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ABSTRACTSewage sludge generated from Waste Water Treatment Plant (WWTP) can be reused by composting because it contains a high organic content. However, the content of heavy metals in sewage sludge can be a major cause negative impacts on the environment and human health. The purpose of this study is to analyze the changes in the physical-chemical parameters, concentration and chemical speciation of Cu and Pb in two compost mixtures as an assessment of the feasibility of both composts to be used as fertilizer. The result showed that the parameters of temperature, pH, and C/N ratio in both compost met the standard quality of compost according to SNI 19-7030-2004. Concentration of Cu in compost 1 and compost 2 were 150 mg/kg and 237 mg/kg respectively, while the concentration of Pb were 224 mg/kg and 183 mg/kg respectively. The concentration of both metals in two composts resulted Ecological Risk factor (Er) that go into a low risk category (Er < 40). In addition, the composting process in this study reduced the toxicity effect of two metals. At the end of composting, fractions of Cu in two composts were dominant in organic bound fraction in amount of 63.50% for compost 1 and 56.20% for compost 2. While Pb were dominant in the residual fraction that is equal to 62.10% for compost 1 and 71.50% for compost 2. These fractions are the stable fracion so that the existence of Cu and Pb in two compost do not give negative impact to the environment if two composts will be applied to soil.;Sewage sludge generated from Waste Water Treatment Plant (WWTP) can be reused by composting because it contains a high organic content. However, the content of heavy metals in sewage sludge can be a major cause negative impacts on the environment and human health. The purpose of this study is to analyze the changes in the physical-chemical parameters, concentration and chemical speciation of Cu and Pb in two compost mixtures as an assessment of the feasibility of both composts to be used as fertilizer. The result showed that the parameters of temperature, pH, and C/N ratio in both compost met the standard quality of compost according to SNI 19-7030-2004. Concentration of Cu in compost 1 and compost 2 were 150 mg/kg and 237 mg/kg respectively, while the concentration of Pb were 224 mg/kg and 183 mg/kg respectively. The concentration of both metals in two composts resulted Ecological Risk factor (Er) that go into a low risk category (Er < 40). In addition, the composting process in this study reduced the toxicity effect of two metals. At the end of composting, fractions of Cu in two composts were dominant in organic bound fraction in amount of 63.50% for compost 1 and 56.20% for compost 2. While Pb were dominant in the residual fraction that is equal to 62.10% for compost 1 and 71.50% for compost 2. These fractions are the stable fracion so that the existence of Cu and Pb in two compost do not give negative impact to the environment if two composts will be applied to soil., Sewage sludge generated from Waste Water Treatment Plant (WWTP) can be reused by composting because it contains a high organic content. However, the content of heavy metals in sewage sludge can be a major cause negative impacts on the environment and human health. The purpose of this study is to analyze the changes in the physical-chemical parameters, concentration and chemical speciation of Cu and Pb in two compost mixtures as an assessment of the feasibility of both composts to be used as fertilizer. The result showed that the parameters of temperature, pH, and C/N ratio in both compost met the standard quality of compost according to SNI 19-7030-2004. Concentration of Cu in compost 1 and compost 2 were 150 mg/kg and 237 mg/kg respectively, while the concentration of Pb were 224 mg/kg and 183 mg/kg respectively. The concentration of both metals in two composts resulted Ecological Risk factor (Er) that go into a low risk category (Er < 40). In addition, the composting process in this study reduced the toxicity effect of two metals. At the end of composting, fractions of Cu in two composts were dominant in organic bound fraction in amount of 63.50% for compost 1 and 56.20% for compost 2. While Pb were dominant in the residual fraction that is equal to 62.10% for compost 1 and 71.50% for compost 2. These fractions are the stable fracion so that the existence of Cu and Pb in two compost do not give negative impact to the environment if two composts will be applied to soil.]"

"ABSTRAKIndustri pulp dan kertas merupakan industri dengan tingkat pencemaran yang tinggi terkait kuantitas limbah lumpur yang dihasilkan (0,1 m3/ton produk). Untuk stabilisasi limbah lumpur tersebut bersamaan dengan produksi biogas, metode yang dapat digunakan adalah metode digestasi anaerobik. Tujuan dari penelitian ini adalah untuk meneliti produksi biogas dari limbah lumpur kertas dengan pemeriksaan kandungan chemical oxygen demands (COD), padatan volatil, volatile fatty acid (VFA) selama proses digestasi anaerobik berlangsung dengan menggunakan dua reaktor anaerobik skala laboratorium dengan volume 15 L pada kondisi mesopilik (30°C). Reaktor pertama menggunakan lumpur kertas sebagai susbtrat tunggal sedangkan reaktor kedua menggunakan campuran kotoran sapi sebagai ko-substrat untuk mencapai nilai C/N yang optimum serta mengetahui pengaruh penambahan ko-susbtrat pada proses produksi biogas. Proses dilakukan pada kondisi batch dengan kandungan total padatan 20% untuk kedua reaktor. Hasil penelitian ini menunjukkan potensi produksi biogas dari proses digestasi anaerobik untuk lumpur kertas sebesar 31 ml biogas/ g VS selama 28 hari sedangkan campuran lumpur kertas dan kotoran sapi memperlihatkan hasil potensi produksi biogas 470 ml biogas/gVS selama 45 hari. Potensi gas metan dari limbah lumpur kertas sebesar 15 ml CH4/g VS dengan konsentrasi maksimum gas metan sebesar 58 % sedangkan untuk campuran limbah lumpur kertas dan kotoran sapi 380 ml CH4/g VS dengan konsentrasi gas metan maksimum sebesar 84% dan konsentrasi rata-rata gas metan selama proses adalah 50%. Konstanta hidrolisis proses digestasi anaerobik lumpur kertas dan campuran lumpur kotoran sapi adalah 0,18 dan 0,22.

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ABSTRACTPulp and paper industry is one of the most polluted in the world because the large quantities of paper sludge (0,1 m3/ton product). Anaerobic digestion process is a potential succesful treatment to stabilize sludge in and produce biogas to be renewable energy. The aims of this study were to investigate the biogas production dan digestate potential of paper sludge based on biogas production while monitoring chemical oxygen (COD),volatile solids, volatile fatty acid (VFA) of sludge digestion. In pilot-scale experiments, paper sludge decomposed under meshophilic condition (30C). Anaerobic digestion monitoring process conducted using 2 lab-scale reactor ( 15 L) under mesophilic digestion. Paper Sludgee was used to feed first reactor (R1) meanwhile second reactor (R2) contains paper sludge and cow manure. Pilot test were performed in batch conditions with 20% total solid content of the input material. pH meter and termometer were installed in reactor for daily monitoring and impeller (80rpm) for continuous mixing. The results shown biogas production by anaerobic digestion process of paper sludge and cow manure higher (470 ml biogas/ gVS) for 28 days than paper sludge as single substrate (31 ml biogas/g VS for 45 days). Methane potential from paper sludge attained to 15 ml CH4/g VS and 380 ml CH4/g VS with maximum concentration 58% and 84%, meanwhile average methane concentration for both substrates reached to 50%. Hydrolysis constants (khyd) were higher for paper sludge than for either of the mixing of paper sludge and cow manure : 0,18 > 0,03. "

"Pengomposan merupakan salah satu opsi teknologi yang efisien dan ramah lingkungan dalam penanganan limbah lumpur IPAL. Penelitian ini bertujuan untuk menganalisis kualitas fisik-kimia kompos, aktivitas mikroorganisme dan enzim, serta pengaruh parameter fisik-kimia terhadap aktivitas mikroorganisme dan enzim selama proses pengomposan lumpur dengan bulking agent sampah daun. Pengomposan menggunakan sistem open windrow selama 48 hari dengan campuran lumpur dan bulking agent 1:1 dan 2:3 untuk Kompos 1 dan 2.Hasil penelitian menunjukkan bahwa temperatur kompos berada pada rentang 28o-37,5oC, namun pengomposan mampu mengurangi total koliform hingga mencapai 99,92% dan 99,96% pada Kompos 1 dan 2. Kualitas akhir pH, C/N, dan fecal koliform pada kompos secara umum telah memenuhi kriteria kompos matang (SNI No 19/2004). Aktivitas bakteri proteolitik dan selulolitik terus meningkat dan mencapai puncaknya pada hari ke-34 dengan jumlah mencapai 1010 dan 1012 CFU/gram. Parameter pH, rasio C/N, kadar air, dan kadar volatil memiliki pengaruh yang lebih signifikan terhadap aktivitas mikroorganisme dan enzim kompos (p<0,1).

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Composting is one of technology options that can be considered as an alternative treatment to sewage sludge. The aimed of this study was to analyze the changes in physico-chemical parameters, microbial and enzyme activities, and effect of physico-chemical parameters on microbial and enzyme activities during the composting of sewage sludge and leaves as the bulking agents. The composting process was carried out for 48 days and use open windrow system. The mixture of sewage sludge and bulking agents for Compost 1 and 2 were 1 : 1 and 2 : 3, respectively.The results showed that values for temperature ranged from 28o-37,5oC, yet it could reduce total coliform up to 99.92% and 99.96% for Compost 1 and 2. The quality compost on pH, C/N ratio, and fecal coliform generally have met the criteria as mature compost (SNI No. 19/2004). Proteolytic and cellulolytic bacterial activities tended to increase and reached peak value up to 1010 and 1012 CFU/gram on the 34th day. Parameters of pH, C/N ratio, moisture content, and volatile solid have a more significant effect on the microbial and enzyme activities (p<0,1)"

"Arsenic contaminated sludge can be substantially found from the treatmen of arsenic contaminated ground water. Lake of proper management and reuse of this sludge can create further environmental problem as there is probability of mixing with soil and water...."

"Berdasarkan Peraturan Pemerintah Nomor 16 Tahun 2005 limbah akhir dari proses pengolahan air wajib diolah sebelum dibuang IPA Legong di bawah PDAM Tirta Kahuripan selama ini langsung membuang lumpurnya ke badan air Sungai Ciliwung tanpa pengolahan apapun Dalam penelitian ini ada empat alternatif yang dibuat dan pemilihan berdasarkan pertimbangan kebutuhan lahan volume dry cake pengoperasian dan biaya Alternatif yang terpilih adalah alternatif 1 terdiri dari 1 bak ekualisasi 1 gravity thickening 1 sludge conditioning tank 1 belt filter press 1 bak penampung lumpur dan 1 bak supernatan dengan menerapkan resirkulasi air cucian filter dan supernatan menjadi air baku sehingga lumpur yang diolah hanya berasal dari unit sedimentasi Debit lumpur dari instalasi konvensional sebesar 382 87 m3 hari sedangkan debit lumpur dari instalasi heksakoloidal sebesar 191 43 m3 hari Perkiraan kebutuhan lahan yang diperlukan adalah sebesar 420 m2.

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Based on Government Regulation Number 16 Year 2005 waste produced from water treatment process must be treated before discharging Legong Water Treatment Plant under PDAM Tirta Kahuripan discharge the sludge directly into stream water Ciliwung without any treatment In this research there are four alternatives sludge treatment made and the choosing done based on land area dry cake volume operational and maintenance and financial criteria The choosen alternative is first alternative consists of 1 equalization tank 1 gravity thickener 1 sludge conditioner tank 1 belt filter press 1 dry cake tank and 1 supernatant tank by applying filter backwash waste recycle into raw water so the sludge that flows into treatment unit only comes from sedimentation unit Sludge generation from conventional installation is 382 87 m3 day and from hexacoloidal installation is 191 43 m3 day Land area needed for sludge treatment approximately is 420 m2 "

"Produksi dari kegiatan agrikultura sangat bergantung akan ketersediaan sumber daya fosfor yang berperan penting bagi pertumbuhan tanaman. Penggunaan pupuk fosfor berkonsentrasi tinggi telah menjadi praktik terus-menerus yang dapat mengancam cadangan fosfor yang merupakan sumber daya yang tidak dapat diperbaharui. Namun di sisi lain, fosfor merupakan salah satu polutan utama dalam perairan yang pada akhirnya mengakibatkan tingginya kandungan fosfor pada lumpur di Instalasi Pengolahan Air Limbah (IPAL). Pemulihan fosfor dari lumpur aktif IPAL kemudian menjadi opsi potensial yang dapat dilakukan untuk mengembalikan ketersediaan fosfor di dunia. Tujuan dari penelitian ini adalah menganalisis efisiensi pemulihan fosfor dari lumpur aktif melalui proses fermentasi. Didapatkan hasil bahwa fermentasi dapat melepaskan fosfor terlarut dengan nilai tertinggi pada hari ketiga percobaan, yaitu sebesar 39,12 mg/L atau setara dengan 6% dari fosfor total dalam sampel. Nilai tersebut masih berada di bawah efisiensi pelepasan fosfor pada umumnya yang mungkin diakibatkan oleh tingginya kandungan logam pada sampel. Sehingga diperlukan pre-treatment pada sampel agar efisiensi pelepasan fosfor meningkat, salah satu caranya adalah melakukan fermentasi asam. Produksi Volatile Fatty Acid (VFA) dari lumpur aktif melalui proses fermentasi juga dicari tahu sehingga diketahui proses fermentasi dapat memproduksi VFA sebesar 1483,216 mg/L. Nilai tersebut berada pada rentang produksi VFA yang umumnya terjadi melalui fermentasi lumpur aktif.

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Production from agricultural activities is highly dependent on the availability of phosphorus resources which play an important role for plant growth. The use of high concentrations of phosphorus fertilizers has been an ongoing practice that can threaten phosphorus stocks which are non-renewable resources. But on the other hand, phosphorus is one of the major pollutants in waters which eventually results in high phosphorus content in the sludge at the Waste Water Treatment Plant (WWTP). Phosphorus recovery from WWTP activated sludge then becomes a potential option that can be carried out to restore phosphorus availability in the world. The objective of this study is to analyze the efficiency of phosphorus recovery from waste activated sludge through anaerobic fermentation process. It was found that fermentation can release dissolved phosphorus with the highest value on the fourth day of the experiment at 39.12 mg/L which is equivalent to 6% of the total phosphorus in the sample. This value is still below the efficiency of phosphorus release in general, which may be due to the high metal content in the sample. So that pre-treatment of sludge is needed so that the efficiency of phosphorus release increases, one method that is well suited to do is to conduct acid fermentation. Volatile Fatty Acid (VFA) production from activated sludge through the fermentation process was also investigated, and it was found that the fermentation process could produce VFA of 1483.216 mg/L. This value is within the range of VFA production that generally occurs through activated sludge fermentation."