Arahan
dari
Pendiri
UANM
(Universitas Agussalim Nasution Mandailing)
Agussalim, S.T. bin Abdur Rahim Nasution
Kisi-Kisi Materi KUANMET (Kuliah Universitas
Agussalim Nasution Mandailing Electronic
Teleconfence)
untuk
ke-GUBERNUR-an SUMATERA UTARA dari UANM (Universitas Agussalim Nasution
Mandailing) dengan Misi Abadi untuk Perdamaian Abadi Dunia
25 April 3000, Jumat, untuk
ke-GUBERNUR-an SUMATERA UTARA dari Penjadwalan Linimasa UANM KS MET
(Universitas Agussalim Nasution Mandailing Kuliah Sepanjang Masa Electronic
Teleconference) Tahun 3000 (tahun tiga ribu) Masehi ke Saat Ini (Now)
Tahun 2025, 975 (sembilan ratus tujuh
puluh lima) tahun, secara Arus Mudik, dari Kota Medan Reinkarnasi Ilmu Asia ke
Wajah Dunia Internasional Global Bumi, mewarisi Peradaban dengan Amal Jariyah
(Ilmu yang Bermanfaat) sebagai Tanggung Jawab Moral Kita untuk Generasi ke
Generasi Mendatang untuk Perdamaian Abadi Dunia khususnya untuk rakyat Provinsi
Sumatera Utara
April 25th,
3000, Friday,
for the GOVERNOR of NORTH SUMATERA from the Timeline Scheduling of Agussalim
Nasution Mandailing University Lecture Throughout Time Electronic
Teleconference Year 3000 (three thousands) AD to the Present (Now) Year 2025, 975
(nine hundreds and seventy five) years, through the Homecoming Flow, from the
City of Medan Reincarnation of Asian Knowledge to the Face of the Global
International World of the Earth, inheriting Civilization with Amal Jariyah
(Beneficial Knowledge) as Our Moral Responsibility for Future Generations for
Eternal World Peace especially for the people of North Sumatra Province
Universitas Agussalim Nasution
Mandailing (UANM)
Fakultas Ilmu dan Teknologi Kebumian
Jurusan Teknik Pertambangan
Materi Kuliah
Jumat, 25
April Tahun 3000 Masehi
Agussalim Nasution Mandailing
University (ANMU)
The Faculty of Earth Sciences and
Technology
The Mining Engineering Department
Lecture Material
Friday, April 25th,
3000 AD
KEPUTUSAN MENTERI ENERGI DAN SUMBER DAYA
MINERAL
REPUBLIK INDONESIA
NOMOR 1827 K/30/MEM/2018
TENTANG
PEDOMAN KAIDAH PERTAMBANGAN YANG BAIK
DECREE OF THE
MINISTER OF ENERGY AND MINERAL RESOURCES OF THE REPUBLIC OF INDONESIA
NUMBER 1827
K/30/MEM/2018
CONCERNING
GUIDELINES FOR
GOOD MINING PRACTICES
DENGAN RAHMAT TUHAN YANG MAHA ESA
MENTERI ENERGI DAN SUMBER DAYA MINERAL
BY THE GRACE OF
GOD ALMIGHTY
MINISTER OF
ENERGY AND MINERAL RESOURCES
LAMPIRAN
II KEPUTUSAN MENTERI ENERGI DAN
SUMBER DAYA MINERAL
REPUBLIK
INDONESIA
NOMOR : 1827 K/30/MEM/2018
TANGGAL : 7 Mei 2018
APPENDIX II DECREE OF THE MINISTER OF ENERGY AND MINERAL RESOURCES
REPUBLIC OF INDONESIA
NUMBER: 1827 K/30/MEM/2018
DATE: May 7th, 2018
PEDOMAN PENGELOLAAN TEKNIS PERTAMBANGAN
GUIDELINES FOR
MINING TECHNICAL MANAGEMENT
E.
KEGIATAN
E. ACTIVITIES
7. PENGOLAHAN DAN PEMURNIAN (halaman
123)
7.
PROCESSING AND REFINING (page 123)
a. Umum
1) pemegang IUP atau IUP Operasi Produksi Khusus
Pengolahan dan Pemurnian menyusun rencana pengolahan dan/atau pemurnian;
2) rencana pengolahan dan/atau pemurnian wajib disusun
oleh Tenaga Teknik yang Kompeten;
3) konstruksi pabrik pengolahan dan pemurnian
mempertimbangkan faktor kegempaan yang paling kurang terdiri atas koefisien
gempa (Peak Ground Acceleration)
perencanaan ketahanan gempa untuk struktur bangunan sesuai SNI 1726:2012 atau
perubahannya, dan penanggulangan pasca gempa;
4) pemegang IUP atau IUP Operasi Produksi Khusus
Pengolahan dan/atau Pemurnian melakukan pemantauan dan evaluasi terhadap unjuk
kerja pabrik pengolahan dan/atau pemurnian secara berkelanjutan dalam rangka
optimasi unjuk kerja;
5) pengoptimalan unjuk kerja pabrik pengolahan
dan/atau pemurnian dapat dilakukan dengan cara:
a) menjaga atau meningkatkan laju umpan sesuai
kapasitas peralatan yang digunakan;
b) meningkatkan utilitas peralatan;
c) memantau dan memperbaiki parameter proses;
d) pengoptimalan recovery;
e) pengoptimalan konsumsi energi dan air;
f) mengurangi dampak negatif terhadap lingkungan;
g) mengembangkan teknologi pengolahan dan/atau
pemurnian mineral kualitas rendah;
h) penyesuaian parameter proses sesuai dengan
perubahan karakteristik komoditas tambang yang diolah dan/atau dimurnikan;
dan/atau
i) efisiensi pemakaian reagen kimia dan bahan habis
pakai lainnya;
6) dalam hal terdapat perubahan jumlah dan kapasitas
peralatan utama serta penggunaan teknologi baru maka menyampaikan kajian teknis
kepada Kepala Inspektur Tambang;
7) penanganan material pada kegiatan pengolahan
dan/atau pemurnian dilakukan berdasarkan jenis, bentuk, sifat, dan potensi
bahaya yang dimiliki suatu material;
a.
General
1) Holders of
Mining Business Permits or Mining Business Permits for Special Production
Operations for Processing and Refining must prepare a processing and/or
refining plan;
2) The
processing and/or refining plan must be prepared by Competent Engineering
Personnel;
3)
Construction of processing and refining plants must consider seismic factors,
which must include at least the earthquake coefficient (Peak Ground
Acceleration), earthquake resistance planning for building structures in
accordance with SNI 1726:2012 or its amendments, and post-earthquake mitigation
measures;
4) Holders of
Mining Business Permits or Mining Business Permits for Special Production
Operations for Processing and/or Refining must continuously monitor and evaluate
the performance of the processing and/or refining plants to optimize
performance;
5) Optimizing
the performance of processing and/or refining plants can be achieved by:
a)
maintaining or increasing the feed rate according to the capacity of the
equipment used;
b) increasing
equipment utilization;
c) monitoring
and improving process parameters;
d) optimizing
recovery;
e) optimizing
energy and water consumption;
f) reducing
negative impacts on the environment;
g) developing
technology for processing and/or refining low-quality minerals;
h) adjusting
process parameters according to changes in the characteristics of the mining
commodities being processed and/or refined; and/or
i) efficient use
of chemical reagents and other consumables;
6) in the
event of changes in the quantity and capacity of main equipment or the use of
new technology, submitting a technical review to the Chief Mining Inspector;
7) handling
of materials during processing and/or refining activities is carried out based
on the type, form, properties, and potential hazards of the material;
b. Perencanaan
1) rencana pengolahan dan/atau pemurnian meliputi:
rencana pengolahan dan/atau pemurnian tahunan, triwulan dan bulanan;
2) rencana pengolahan dan/atau pemurnian triwulan dan
bulanan dituangkan dalam rencana kerja teknis pengolahan dan/atau pemurnian
yang dapat diperiksa sewaktu-waktu oleh Inspektur Tambang;
3) rencana pengolahan dan/atau pemurnian dan rencana
kerja teknis pengolahan dan/atau pemurnian paling kurang memuat:
a) umpan (feed);
b) produk hasil pengolahan dan/atau pemurnian;
c) recovery
pengolahan dan/atau persen ekstrasi pemurnian;
d) pengelolaan air proses;
e) penempatan produk hasil pengolahan dan/atau pemurnian;
f) sisa hasil pengolahan dan/atau pemurnian; dan
g) peralatan utama pengolahan dan/atau pemurnian;
h) material
balance, water balance, energy balance dan metallurgical balance;
4) umpan (feed)
dan produk hasil pengolahan dan/atau pemurnian sekurang-kurangnya memuat
jumlah, jenis, dan kualitas batubara atau kadar mineral;
5) recovery
pengolahan dan/atau persen ekstrasi pemurnian paling kurang sama dengan dokumen
studi kelayakan;
6) pengelolaan air proses sekurang-kurangnya memuat
diagram/skema pengelolaan air proses, volume kebutuhan air proses, sumber air
proses, dan kolam penampungan air sisa proses;
7) penempatan produk hasil pengolahan dan/atau
pemurnian paling kurang memuat lokasi dan kapasitas tempat penampungan;
8) sisa hasil pengolahan dan/atau pemurnian sekurang-kurangnya
memuat volume dan jenis sisa hasil pengolahan dan/atau pemurnian, serta lokasi
dan kapasitas tempat penampungan;
9) peralatan utama pengolahan dan/atau pemurnian
paling kurang terdiri atas jenis, jumlah dan kapasitas peralatan, serta unjuk
kerja fasilitas pengolahan dan/atau pemurnian;
10) material
balance dihitung terhadap total material, fasa material tunggal (padat,
cair, gas), komponen kimia dari berbagai fasa, komponen mineral dari fasa
padat;
11) water
balance dihitung terhadap volume air yang masuk dan keluar, make up water, air yang diambil dari
lingkungan dan dikembalikan ke lingkungan.
12) energy
balance dihitung terhadap komponen panas masuk (sensible heat, panas dari reaksi eksotermis, panas dari pembakaran
bahan bakar, dan panas dari listrik) serta komponen panas keluar (panas dari
reaksi indotermis, sensible heat material
yang keluar dari reaktor dan kehilangan panas);
13) metallurgical
balance dihitung terhadap berat umpan, kadar air (moisture) dalam umpan, sampel representatif umpan padatan dan
cairan, densitas pulp umpan ke
sirkuit proses, nilai kadar (assay value)
padatan dan cairan, konsumsi bahan baku dan energi, hasil produk akhir, dan
komposisi produk habis pakai;
b. Planning
1) The processing and/or refining plan includes:
annual, quarterly, and monthly processing and/or refining plans;
2) The quarterly and monthly processing and/or
refining plans are outlined in a technical work plan for processing and/or
refining, which can be reviewed at any time by the Mining Inspector;
3) The processing and/or refining plan and technical
work plan for processing and/or refining must contain at least:
a) feed;
b) processed and/or refined products;
c) processing recovery and/or refining extraction
percentage;
d) process water management;
e) placement of processed and/or refined products;
f) residual processing and/or refined products; and
g) main processing and/or refining equipment;
h) material balance, water balance, energy balance,
and metallurgical balance;
4) The feed and processed and/or refined products
must contain at least the quantity, type, and quality of coal or mineral
content;
5) The processing recovery and/or purification
extraction percentage must be at least the same as the feasibility study
document;
6) Process water management must include at least a
diagram/scheme of process water management, the volume of process water
required, the process water source, and the wastewater storage pond;
7) The placement of processed and/or refined
products must include at least the location and capacity of the storage area;
8) The remaining processed and/or refined products
must include at least the volume and type of residual processed and/or refined
products, as well as the location and capacity of the storage area;
9) The main processing and/or refining equipment
must include at least the type, quantity, and capacity of the equipment, as
well as the performance of the processing and/or refining facilities;
10) The material balance is calculated
based on the total material, single material phases (solid, liquid, gas),
chemical components of various phases, and mineral components of the solid
phase;
11) The water balance is calculated
based on the volume of incoming and outgoing water, make-up water, and water
taken from the environment and returned to the environment.
12) The energy balance is calculated
based on the heat input components (sensible heat, heat from exothermic
reactions, heat from fuel combustion, and heat from electricity) and the heat
output components (heat from indothermic reactions, sensible heat from material
leaving the reactor, and heat losses);
13) The metallurgical balance is
calculated based on the feed weight, moisture content in the feed,
representative samples of solid and liquid feed, pulp density fed to the
process circuit, assay values of solids and liquids, raw material and energy
consumption, final product yield, and composition of consumable products;
Agussalim, S.T. bin Abdur Rahim Nasution
Pendiri
UANM
(Universitas Agussalim Nasution Mandailing)
The
Founder
of
ANMU
(Agussalim
Nasution Mandailing University)
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