| Bahan Kajian | - Bab I Pendahuluan
- Bab II Produk, Bahan Baku dan Biosintesis
- Bab III Perancangan Proses dan Produk
- Bab IV Neraca Massa Unit Operasi Utama
- Bab V Neraca Energi Unit Operasi Utama
- Bab VI Sistem Utilitas, Pengolahan Limbah, Keamanan, Kesehatan, dan Keselamatan Kerja
- Bab VII Rancangan Struktur Keseluruhan dan Tata Letak
- Bab VIII Analisis Keekonomian
| - Chapter I Introduction
- Chapter II Products, Raw Materials, and Biosynthesis
- Chapter III Process and Product Design
- Chapter IV Mass Balance of Main Unit Operations
- Chapter V Energy Balance of Main Unit Operations
- Chapter VI Utility Systems, Waste Treatment, Safety, Health, and Work Safety
- Chapter VII Overall Structure and Layout Design
- Chapter VIII Economic Analysis
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mampu merancang tata letak sistem produksi yang efektif dan efisien dalam pemakaian lahan melalui pertimbangan keberadaan unit-unit proses, dengan format keteknikan yang baku dan mudah dipahami
- Mampu membuat denah sistem produksi dengan pertimbangan keamanan, keselamatan, kenyamanan dan kesehatan dalam lingkungan kerja, disertai dengan penjelasan yang terstruktur
- Mampu menyusun diagram alir proses serta mengkuantifikasi neraca massa dan energi sistem yang dirancang menggunakan piranti teknik terkini
- Mampu mengidentifikasi kebutuhan terhadap suatu produk
- Mampu mendeskripsikan tujuan perancangan mencakup kualitas produk yang dihasilkan
- Mampu menentukan batasan-batasan (scoping) proses/produk, seperti kapasitas dan spesifikasi produksi sesuai dengan standar keteknikan (seperti SNI atau ASTM)
- Mampu menyebutkan kebutuhan informasi/data untuk membantu perancangan
- Mampu merangkum informasi batasan-batasan, waktu dan informasi pendukung lainnya dalam bentuk “Project Charter”
- Mampu menjelaskan, mengidentifikasi dan mengkuantifikasi komponen kendali operasional pada suatu jalur biosintesis
- Mampu mendeskripsikan karakteristik/sifat-sifat fisik, kimia, dan biologi dari bahan baku dan produk campuran yang terbentuk
- Mampu mengevaluasi spesifikasi, material dan alat-alat berdasarkan kapasitas produksi sesuai dengan standar keteknikan (seperti SNI atau ASTM)
- Mampu mengestimasi kebutuhan utilitas dan bahan bakunya untuk proses-proses utama dan pendukung
- Mampu menganalisis masalah yang muncul akibat keberadaan produk, teknologi proses yang mencakup bahan baku, limbah (lingkungan), keselamatan, keamanan, kesehatan, sosial dan lain sebagainya
- Mampu menentukan kelayakan ekonomi yang dirancang meliputi Total Capital Investment, Total Production Cost, Net present Value, Payback Period, Break-even Point dan Analisis Sensitivitas
| - Capable of designing an effective and efficient production system layout that optimizes land use by considering the placement of process units, using standardized engineering formats that are clear and understandable
- Able to create a production system layout considering safety, health, comfort, and safety in the workplace, accompanied by structured explanations.
- Capable of developing process flow diagrams and quantifying mass and energy balances of the designed system using modern engineering tools.
- Able to identify the needs for a particular product.
- Capable of describing the design objectives, including the quality of the resulting product.
- Able to determine process/product limitations (scoping), such as production capacity and specifications, in accordance with engineering standards (such as SNI or ASTM).
- Capable of specifying the information/data requirements to support in the design process.
- Able to summarize boundary information, timelines, and other supporting information in the form of a "Project Charter."
- Capable of explaining, identifying, and quantifying operational control components in a biosynthesis pathway.
- Capable of describing the physical, chemical, and biological characteristics/properties of raw materials and resulting mixed products.
- Able to evaluate specifications, materials, and equipment based on production capacity in accordance with engineering standards (such as SNI or ASTM).
- Capable of estimating utility and raw material requirements for main and supporting processes.
- Able to analyze problems arising from the presence of products, process technology including raw materials, waste (environment), safety, security, health, social, and other factors.
- Capable of determining the economic feasibility of the designed system, including Total Capital Investment, Total Production Cost, Net Present Value, Payback Period, Break-even Point, and Sensitivity Analysis.
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