IEK 105 TREATMENT AND MANAGEMENT OF SOLID WASTE [PENGOLAHAN DAN PENGURUSAN SISA PEPEJAL]

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UNIVERSITI SAINS MALAYSIA Second Semester Examination 009/0 Academic Session April/May 0 IEK 5 TREATMENT AND MANAGEMENT OF SOLID WASTE [PENGOLAHAN DAN PENGURUSAN SISA PEPEJAL] Duration: 3 hours Masa: [3 jam] Please check that this examination paper consists of ELEVEN pages of printed material before you begin the examination. [Sila pastikan bahawa kertas peperiksaan ini mengandungi SEBELAS muka surat yang bercetak sebelum anda memulakan peperiksaan ini.] Instructions: Answer FIVE (5) questions. Answer ALL questions in PART A and ONE question in PART B. You may answer the questions either in Bahasa Malaysia or in English. [Arahan: Jawab LIMA (5) soalan. Jawab SEMUA soalan dalam BAHAGIAN A dan SATU soalan dalam BAHAGIAN B. Anda dibenarkan menjawab soalan sama ada dalam Bahasa Malaysia atau Bahasa Inggeris.] In the event of any discrepancies, the English version shall be used. [Sekiranya terdapat sebarang percanggahan pada soalan peperiksaan, versi Bahasa Inggeris hendaklah diguna pakai.] /-

- - PART A (ANSWER ALL QUESTIONS) 1. Given the solid waste components and characteristics in Table 1. (a) Estimate the as-discarded density of the solid wastes? ( marks) If the compaction ratio, r is.5, what is the size of collection vehicle is needed per 00 kg wastes? Table 1 Solid wastes components and characteristics Component Weight, kg Density, kg/m 3 Food waste Paper Cardboard Plastic Yard waste 5 35 0 00 90 50 0 0 ( marks) You are as the contractor of a solid waste collection firm had signed an agreement with a community consists of 15 apartment complexes. The discarded volume of solid waste to be collected is 0m 3 per collection day. (i) Determine the number of trip required on collection day. (ii) The size of vehicle and (iii) The size of containers to be provided. ( marks) Given information: Vehicle compaction ratio, r =.5 Driving time between container location, dbc = 0.1h Time to clear one location, p = 0.h Time spent to unload the cargo of solid wastes at the destination point, s = 0.1h Working hour per day = h Wasted time fraction, W = 0.15 Driving time from dispatch station, t 1 = 0 min Driving time to dispatch station, t = 5 min Round trip distance = 0 km Speed = 30 km/h d l = dbc (C l -1)/C l N t = [(1-W) H-t 1 -t ]/t net t net = (p+d l )C l +s+h 3/-

- 3 -. Explain briefly FIVE phases of stabilization processes of solid waste in the landfill (a) (d) (e) Phase 1 Initial adjustment Phase Transition Phase 3 Acid formation Phase Methane fermentation Phase 5 Maturation (0 marks) 3. (a) (i) Estimate the percolation of water through a landfill of m deep, with 1-m cover of soil and ( marks) (ii) Determine how long does it take to produce leachate? Assume that this landfill has Precipitation rate, P = 155 mm/year Runoff coefficient, R = 0.15 Evapotranspiration rate, E = 0 mm/year Storage capacity, S = 150 mm/year Moisture content of incoming wastes = 150 mm/m C = P (1-R)-S-E ( marks) Estimate the required landfill area for a community with a population of 50,000. Assume that the following conditions apply: Solid waste generation = 3. kg/(capita.d) Compacted specific weight of solid wastes in landfill = 00 kg/m 3 Average depth of compacted solid waste = m ( marks). (a) Give FOUR examples of hazardous waste compounds that may be found in municipal solid waste (MSW). ( marks) List THREE laws of Malaysia under Environmental Quality Act, 19 related to scheduled waste. ( marks) /-

- - List THREE potential sources of hazardous waste generated in a university environment. Indicate what properties make such substances hazardous. ( marks) PART B (ANSWER ONE QUESTION ONLY) 5. The composition of solid wastes is given in Table below. Table Solid wastes component and characteristics Component Food waste Paper Cardboard Plastic Yard waste Weight, kg 5 35 0 Moisture content, % 0 5 1 5 Percent by weight (dry basis) C H O N S Ash.0. 3.. 0. 5.0 3.5.0.0 0.3 0..0.0 5.9. 0.3 0. 5.0 0.0.. - -.0..0 3.0 3. 0.3 0.3 (a) Estimate the overall moisture content of the solid wastes. ( marks) Determine the chemical composition of the solid wastes described in Table 1 (i) (ii) with sulfur (with and without water) without sulfur (with and without water) (1 marks) 5/-

- 5 -. (a) Sketch out a collection routes for the residential area shown in Figure. Assume that the following data are applicable: Occupants per residence = 3.1 Solid waste generation rate = 3.5 kg/capita.day Collection frequency = once per week Type of collection service = curb Collection crew size = 1 person Collection vehicle capacity = m 3 Compacted specific weight of solid waste in collection vehicle = 590 kg/m 3 Figure Map of residential areas for municipal solid waste collection services 1 1 1 1 1 1,,,,, 1 = number of residences along each block (1 marks) /-

- - Name THREE group of microorganisms that are working in the composting process. (3 marks). (a) List down all the important parameters in the composting process. (3 marks) Write a short note on (i) composting (ii) fermentation (iii) biogas (9 marks) Describe briefly the following clinical waste categories. Give TWO examples of each waste category. (i) Pathological waste (ii) Genotoxic waste (iii) Infectious waste ( marks) /-

- - BAHAGIAN A (JAWAB SEMUA SOALAN) 1. Diberi komponen dan ciri-ciri sisa pepejal seperti di dalam Jadual 1. (a) Anggarkan ketumpatan semasa pembuangan sisa pepejal tersebut? ( markah) Jika nisbah padatan, r ialah.5, apakah saiz kenderaan pengangkut yang diperlukan bagi 00 kg sisa pepejal tersebut? Jadual 1 Komponen sisa pepejal dan ciri-cirinya Komponen Berat, kg Ketumpatan, kg/m 3 Sisa makanan Kertas Kadboard Plastik Sisa laman 5 35 0 00 90 50 0 0 ( markah) Anda sebagai kontraktor yang bertanggungjawab bagi sebuah firma yang memungut sisa pepejal telah menandatangi satu perjanjian dengan komuniti yang mengandungi 15 kompleks apartment. Isipadu sisa pepejal yang perlu dipungut ialah 0m 3 dalam hari pungutan. Anda dikehendaki menentukan. ( markah) (i) Jumlah trip yang diperlukan dalam hari pungutan yang ditentukan. (ii) Isipadu kenderaan pemungut dan (iii) Saiz kontena yang diperlukan. Maklumat yang diberikan adalah seperti berikut: Nisbah mampatan kenderaan pemungut, r =.5 Masa memandu antara lokasi kontena, dbc = 0.1 jam Masa membersihkan satu lokasi, p = 0. jam Masa untuk memunggahkan kargo sisa pepejal di stesyen pemindahan,s = 0.1 jam Masa bekerja sehari = jam Pecahan masa terbazir, W = 0.15 Masa memandu dari garaj, t 1 = 0 min Masa memandu ke garaj, t = 5 min Jarak pusingan trip = 0 km Kelajuan = 30 km/jam d l = dbc (C l -1)/C l N t = [(1-W) H-t 1 -t ]/t net t net = (p+d l )C l +s+h.../-

- -. Terangkan secara ringkas LIMA fasa di dalam proses penstabilan sisa pepejal yang berlaku di tapak pelupusan. (a) (d) (e) Fasa 1 Penyesuaian Fasa Peralihan Fasa 3 Pembentukan asid Fasa Fermentasi metana Fasa 5 Maturasi (0 markah) 3. (a) (i) Anggarkan kadar perkolasi air yang berlaku di dalam sebuah tapak pelupusan yang berkedalaman meter yang ditutupi dengan tanah 1 m tebal dan (ii) Anggarkan masa yang diperlukan untuk leachate terhasil. Anggapkan tapak pelupusan tersebut mempunyai ( markah) Kadar prepitasi, P = 155 mm/tahun Koefisien air larian, R = 0.15 Kadar evapotranspirasi, E = 0 mm/tahun Kapasiti muatan, S = 150 mm/tahun Kandungan lembapan sisa pepejal = 150 mm/m C = P (1-R)-S-E ( markah) Anggarkan luas tapak pelupusan sisa pepejal yang diperlukan bagi komuniti yang mengandungi 50, 000 orang penduduk. Maklumat yang diberikan: Kadar penjanaan sisa pepejal = 3. kg/(kapita.hari) Berat spesifik termampat sisa pepejal dalam tapak pelupusan = 00 kg/m 3 Kedalaman purata sisa pepejal termampat = m ( markah). (a) Berikan EMPAT contoh sebatian sisa berbahaya yang boleh diperolehi dalam sisa pepejal perbandaran (MSW). ( markah) 9/-

- 9 - Senaraikan TIGA undang-undang Malaysia dibawah Akta Kualiti Alam Sekeliling, 19 yang berkaitan dengan sisa terjadual. ( markah) Senaraikan TIGA sumber sisa berbahaya yang berpotensi dijana dalam persekitaran universiti. Nyatakankan juga ciri-ciri yang membuat sisa yang disenaraikan tersebut berbahaya. ( markah) BAHAGIAN B (JAWAB SATU SOALAN SAHAJA) 5. Komposisi dan ciri-ciri bagi sisa pepejal seperti yang ditunjukkan di dalam Jadual 5. Jadual 5 Komposisi sisa pepejal dan ciri-cirinya Komponen Sisa makanan Kertas Kadboard Plastik Sisa laman Berat, kg 5 35 0 Kandungan lembapan, % 0 5 1 5 Peratusan berat kering C H O N S Abu.0. 3.. 0. 5.0 3.5.0.0 0.3 0..0.0 5.9. 0.3 0. 5.0 0.0.. - -.0..0 3.0 3. 0.3 0.3 (a) Anggarkan kandungan lembapan bagi keseluruhan sisa pepejal tersebut. ( markah) Tentukan komposisi kimia (formula kimia) bagi sisa pepejal yang diberikan di dalam Jadual 5. (i) (ii) Dengan sulfur (mengandungi air dan tanpa air) Tanpa sulfur (mengandungi air dan tanpa air) (1 markah) /-

- -. (a) Lakarkan laluan pengutipan bagi kawasan perumahan yang dipamerkan dalam Rajah. Gunakan data-data berikut sebagai anggapan anda: Penghuni per kediaman = 3.1 Kadar penjanaan sisa pepejal = 3.5 kg/kapita.hari Kekerapan pengutipan = sekali dalam seminggu Jenis servis pengutipan = susur jalan Saiz krew pengutipan = seorang Kapasiti kenderaan pengutip = m 3 Berat spesifik sisa pepejal termampat dalam kenderaan pengutip = 590 kg/m 3 Rajah Peta kawasan perumahan untuk servis pengutipan sisa pepejal perbandaran 1 1 1 1 1 1,, 5,,,, 11,, 1 = bilangan kediaman sepanjang setiap blok (1 markah) 11/-

- 11 - Namakan TIGA kumpulan mikroorganisma yang berperanan dalam proses pengkomposan. (3 markah). (a) Senaraikan kesemua parameter utama dalam proses pengkomposan. (3 markah) Tuliskan catatan ringkas berkenaan (i) pengkomposan (ii) fermentasi (iii) biogas (9 markah) Secara ringkas terangkan setiap kategori sisa klinikal berikut. Berikan DUA contoh bagi setiap satu kategori sisa tersebut. (i) Sisa patologi (ii) Sisa genotoksik (iii) Sisa berjangkit ( markah) - ooo0ooo -

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