11 July, 2019

ICOR dan Nawacita



19 January, 2014

PAPUA ELECTRICITY SUPPLY PLAN


For those who are engaged in power plants development, I would like to share the following points with regard to the above subject. Good luck.

Electricity Condition
Demand for electricity in Papua ia supplied by Papua electricity system consisting of Jayapura, Biak, Sorong, Merauke, Manokwari, and Timika systems. Peak utilization in 2011 reached 159.40 MW. Total installed capacity of power plants in Papua up to 2011 was 246.67 MW consisiting of Diesel Power Plants 242.27 MW and Hydro Power Plants 4.40 MW. In 2011, electricity sale for Papua reached 828 GWh.
 
Energy Potentials
Papua is estimated to have hydro power potentials for 49 MW, coal for 128.57 million tonnes, thermal for 75 MWe in 3 locations namely Makbon, Ransiki, and Kebar, oil for 94.93 MMSTB, and natural gas for 24.32 TSCF.
                         
Electricity Demand Estimate
It is projected that demand for electricity in Papua for the period 2012-2031 shall grow averagely by  13.6% per year so that in 2031 electricity need is expected to reach 11.2 TWh. To fulfill peak utilization growth of averagely 11.7% per year until 2031, then additional power of averagely 307 MW per year shall be needed.

04 January, 2014

NORTH MALUKU ELECTRICITY SUPPLY PLAN

          For those who are engaged in power plants development, I would like to share the following points with regard to the above subject. Warm regards.

Electricity Condition
Demand for electricity in North Maluku is supplied by some isolated systems namely Ternate, Soa Siu, Weda, Bacan, Dofa, Jailolo, Sanana, Tobelo, Subaim, Maba-Buli, Patani, and Sofifi systems. Peak utilization in 2011 reached 38.40 MW. Total installed capacity of power plants in North Maluku up to  2011 was 164.19 MW, all Diesel Power Plants. Total electricity sale for North Maluku in 2011 reached 205 GWh.

Energy Potentials
North Maluku is estimated to have thermal potentials of 427 MWe in 13 locations namely Mamuya, Ibu, Akelamo, Jailolo, Keibesi, Akesahu, Indari, Labuha, Songa -Wayaua, Kramat Islands, Losseng Islands, Auponia Islands, and Bruokol Islands. Coal potentials are estimated to reach 2.13 million tonnes.

Electricity Demand Estimate
        It is projected that demand for electricity in North Maluku for the period 2012-2031 shall grow averagely by 17.2% per year so that in 2031 electricity need is expected to reach 4.8 TWh. To fulfill peak utilization growth of averagely around 16.9% per year until 2031, then additional power of averagely 65 MW per year shall be needed. 

29 December, 2013

MALUKU ELECTRICITY SUPPLY PLAN

              For those who are engaged in developing power plants, I would like to share the following points with regard to the above subject. Warm regards.
 
Electricity Condition
Demand for electricity in Maluku is supplied by some isolated systems namely Ambon, Namlea, Tual, Saumlaki, Mako, Piru, Bula, Masohi, Dobo, and Langgur Systems. Peak utilization in 2011 reached 70.79 MW.
Total installed capacity of power plants in Maluku up to 2011 was 268.54 MW consisting of Diesel Power Plants 217.04 MW and Solar Power Plants 51.50 MW. Total electricity sale for Maluku in 2011 reached 337 GWh. 

Energy Potentials
Maluku is estimated to have hydro potentials of 156.4 MW. In addition, thermal potentials of 590 MWe are also estimated in 17 locations namely Waisekat, Wapsalit-Waeapo, Batabual, Larike, Taweri, Tolehu, Oma-Haruku, Saparua, Nusa Laut, Tehoru, Banda Baru, Pohon Batu, Kelapa Dua, Warmong, Esulit, Lurang, and Karbubu. Natural gas potentials are estimated to reach 15.22 TSCF and oil potentials 48.07 MMSTB.  

Electricity Demand Estimate   
               It is projected that demand for electricity for the period 2012-2031 shall grow averagely by 9.3% per year so that in 2031 electricity need is expected to reach 2.1 TWh. To fulfill peak utilization growth of averagely 8.9% per year until 2031, then additional power of averagely 30 MW per year shall be needed.

EAST NUSATENGGARA ELECTRICITY SUPPLY PLAN

              For those who are engaged in power plants development, I would like to share the following points with regard to the above subject. Warm regards.
Electricity Condition
Electricity system of East Nusa Tenggara consists of some isolated systems namely Kupang, Atambua, Ende, Ruteng, Bajawa, and Maumere systems. In 2011 peak utilization reached 103.59 MW. Total installed capacity of power plants in East Nusa Tenggara up to 2011 was 194.82 MW consisting of Diesel Power Plants 193.35 MW, Hydro Power Plants 0.12 MW, Mini Hydro Power Plants 0.96 MW, Micro Hydro Power Plants 0.02 MW, and Solar Power Plants 0,37 MW. Total electricity sale for East Nusa Tenggara in 2011 reached 487 GWh. 
Energy Potentials
East Nusa Tenggara has thermal and hydro primary energy potentials. Thermal potentials are estimated to reach 1,276 MWe in 19 locations namely Wai Sano, Ulumbu, Wai Pesi, Gou-Inelika, Mengeruda, Mataloko, Komandaru, Ndetusoko, Sukoria, Jopu, Lesugolo, Oka-Ile Angie, Atadei, Bukapiting, Roma-Ujelewung, Oyang Barang, Sirung (Isiabang-Kuriali), Adum, and Alor Timur. Hydro potentials are estimated to reach 11.1 MW namely in Wai Ranjang.  
Electricity Demand Estimate   
It is projected that demand for electricity in East Nusa Tenggara for the period 2012-2031 shall grow averagely by 14.9% per year so that in 2031 electricity need is expected to reach 8.1 TWh. To fulfill peak utilization growth of averagely 14.6% per year until 2031, then additional power of averagely 110 MW per year shall be needed. 

23 December, 2013

WEST NUSATENGGARA ELECTRICITY SUPPLY PLAN

          For those who are engaged in developing of power plants, I would like to share the following points with regard to the above subject. Warm regards.

Electricity Condition
Electricity system in West Nusa Tenggara consists of some isolated systems namely Lombok, Sumbawa, and Bima Systems. Peak utilization in 2011 reached 186,81 MW. Total installed capacity of power plants in West Nusa Tenggara up to 2011 was 288.70 MW consisting of Diesel Power Plants 287.32 MW, Mini Hydro Power Plants 0,92 MW, Micro Hydro Power Plants 0.20 MW, and Solar Power Plants 0.26 MW. In 2011 total electricity sale for West Nusa Tenggara was 837 GWh.

Energy Potentials
West Nusa Tenggara has thermal potentials of 195 MWe in 3 locations namely Sembalun, Marongge, and Daha.

Electricity Demand Estimate   
        It is projected that demand for electricity in West Nusa Tenggara for the period 2012-2031 shall grow averagely by 12.5% per year so that in 2031 electricity need is expected to reach 8.6 TWh. To fulfill peak utilization growth of averagely 12.2% per year until 2031, then additional power of averagely 124 MW per year shall be needed.

SOUTHEAST SULAWESI ELECTRICITY SUPPLY PLAN

           For those who are engaged in developing of power plants, I would like to share the following points with regard to the above subject. Warm regards.

Electricity Condition
        Electricity in Southeast Sulawesi is supplied by some isolated systems namely Kendari, Lambuya, Bau-Bau, Wangi-Wangi, Lasusua, Kolaka, Kassipute, and Raha Systems. Peak utilization in 2011 reached 105.97 MW.
          Total installed capacity of power plants in Southeast Sulawesi up to 2011 was 177.85 MW consisting of Diesel Power Plants 173.70 MW, Hydro Power Plants 1.60 MW, and Micro Hydro Power Plants 2.55 MW. In 2011 total electricity sale for Southeast Sulawesi reached 441 GWh.
 Energy Potentials
        Southeast Sulawesi has hydro and thermal primary energy potentials. Hydro potentials are estimated to reach 82.8 MW namely Watunohu-1 and Tamboli. Thermal potentials are estimated to reach 310 Mwe, scattered in 12 locations namely Mangolo, Parora, Puriala, Amohola, Loanti, Laenia, Torah, Kalende, Kanale, Wonco, Gonda Baru, and Kabungka.
 Electricity Demand Estimate   
         It is projected that demand for electricity in Southeast Sulawesi for the period 2012-2031 shall grow averagely by 13.5% per year so that in 2031 electricity need is expected to reach 5.4 TWh. To fulfill peak utilization growth of averagely 13.2% per year until 2031, then additional power of averagely 87 MW per year shall be needed.