Datin Fatia Umar scite author profile

Indonesian coal was upgraded by upgraded brown coal (UBC), hot water drying (HWD), and steam drying (SD) processes to study the combustion characteristics of this coal. The differential thermal-thermogravimetric analysis (DTA-TG) was carried out to obtain some combustion parameters, such as, ignition temperature (T ig ), maximum combustion rate temperature (T max ), maximum combustion rate (R max ), char burn-out temperature (T bo ), and ash yield. The differential thermal analyzer (DTA) curve can be used to estimate the heat released during the combustion process, which corresponds to the high heating value of the coal. The results show that the combustion characteristics of HWD and SD processes are much better than those of the UBC process. This is because the UBC process was conducted at lower temperature and pressure.

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Effect of dispersing and stabilizing additives on rheological characteristics of the upgraded brown coal water mixture

Umar¹,

Usui

Komoda

et al. 2009

Fuel Processing Technology

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Effects of Processing Temperature of Hot Water Drying on the Properties and Combustion Characteristics of an Indonesian Low Rank Coal

Umar

Usui

Daulay³

2005

Coal Preparation

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Identifikasi keterdapatan unsur logam tanah jarang dalam abu batubara Pusat Listrik Tenaga Uap Ombilin, Sumatera Barat

Suganal¹,

Umar²,

Mamby³

2018

JTMB

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ABSTRAKLogam Tanah Jarang (LTJ) merupakan sumber material penting dari abad ke-21, banyak digunakan sebagai penunjang kehidupan modern seperti mobil listrik, perangkat identifikasi kesehatan (MRI, X-ray, Scanner, contrast agent, dll), LCD, hard drive komputer, pembangkit listrik tenaga angin, teknologi hijau, perangkat night vision, sistem radar dan peralatan militer. Unsur LTJ antara lain terdapat pada abu hasil pembakaran batubara dari Pembangkit Listrik Tenaga Uap (PLTU). Potensi produksi abu batubara dari PLTU di Indonesia mencapai 10 juta ton per tahun dan merupakan potensi sumber unsur LTJ yang bernilai tinggi. Penelitian ini bertujuan untuk mengidentifikasi keterdapatan unsur LTJ dalam abu batubara dari PLTU Ombilin dan proses peningkatan kadarnya. Identifikasi dilakukan dengan analisis percontoh abu batubara menggunakan XRD, XRF, ICP dan SEM. Hasil analisis menunjukkan abu batubara PLTU Ombilin mengandung Cerium, Neodimium, Lantanum, Ittrium dan Samarium meskipun kadar unsur tersebut relatif rendah, yaitu kurang dari 100 ppm. Upaya peningkatan kadar melalui benefisiasi abu terbang telah dapat meningkatan kandungan unsur Sm dari 2 ppm menjadi 9,3267 ppm pada middling, dan pada ampas meningkat dari 2 ppm menjadi 3,9429 ppm. Kandungan unsur LTJ pada abu terbang lebih tinggi dibandingkan pada abu dasar, maka upaya ekstraksi akan lebih ekonomis dilakukan terhadap abu terbang dan seyogyanya disetarakan sebagai bahan baku atau sumber senyawa LTJ. Pemanfaatan abu terbang sebaiknya didahului oleh ekstraksi unsur-unsur LTJnya, selanjutnya digunakan sebagai bahan bangunan maupun peruntukkan lain seperti yang telah berlangsung saat ini.

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Datin Fatia Umar

Change of combustion characteristics of Indonesian low rank coal due to upgraded brown coal process

The Effect of Upgrading Processes on Combustion Characteristics of Berau Coal

Effect of dispersing and stabilizing additives on rheological characteristics of the upgraded brown coal water mixture

Effects of Processing Temperature of Hot Water Drying on the Properties and Combustion Characteristics of an Indonesian Low Rank Coal

Identifikasi keterdapatan unsur logam tanah jarang dalam abu batubara Pusat Listrik Tenaga Uap Ombilin, Sumatera Barat

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