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Abstrak :
Sources nickel laterite deposit of the world are mostly found in the tropic such as Indonesia. The initial composition of nickel saprolite ore is characterized by XRF. Saprolte ore was reduced use coal 15% wt at 1000°C for 60 minutes. The result of reduction is characterized by XRD. Effect of roasting reduction to recovery nickel also affect the result leaching use solvent sulphuric acid (H2SO4) for 240 minutes at 100°C with varying concentrations of 0.5 M, 1 M, and 2 M. The content of nickel dissolved in pregnant leach solution calculated using Atomic Absorbance Spectroscopy (AAS). Result of XRD characterization shows phase transformation into Fe3O4, NiO, and FeNi after reduction roasting. Sulphuric Acid at concentration 1 Molar has the highest nickel recovery with 52.75% in reduced saprolite ore.

Abstrak :
Peningkatan flux kalor yang dihasilkan oleh peralatan elektronik khususnya komponen dari CPU komputer harus selalu diiringi dengan pendinginan yang baik. Flux kalor pada komponen CPU komputer harus dapat direduksi secara maksimal agar bisa mencapai kemampuan operasi yang optimal dengan tingkat reliability yang tinggi. Penggunaan straight heat pipe dalam pendinginan tersebut menjadi salah satu solusi alternatif guna menyerap kalor yang dihasilkan. Penelitian ini memperlihatkan pengaruh number of screen mesh wick terhadap kinerja straight heat pipe yang menggunakan pipa tembaga. Screen mesh wick yang digunakan adalah screen 100, 200, 250, dan 300 mesh. Pengujian dilakukan menggunakan pipa tembaga dengan panjang 200 mm dan berdiameter 6 mm, 8 mm, dan 10 mm dengan fluida kerja air. Hambatan termal diukur melalui wick dengan variasi input daya yang diberikan oleh pemanas elektrik dengan 6 titik pengukuran temperatur sepanjang heat pipe menggunakan termokopel. Didapatkan bahwa semakin besar number of screen mesh wick yang digunakan, dapat meningkatkan kinerja heat pipe dimana temperatur di bagian evaporator dapat direduksi paling besar hingga 20,63% untuk screen 300 mesh dibanding screen 100 mesh. Hal ini dikarenakan hambatan termal pada straight heat pipe semakin kecil dengan meningkatnya number of screen mesh wick yang digunakan. Semakin besar number of screen mesh wick, straight heat pipe yang diuji menunjukkan nilai Heat Transfer Coefficient yang semakin besar pula.

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Increased of heat flux generated by electronic equipment in particular componentsof a computer CPU should always be accompanied with a good cooling. Heat fluxon the computer CPU components must be reduced to maximum in order toachieve optimal operating capability with a high level of reliability. The use ofstraight heat pipes in the cooling of it become one of alternative solution in orderto absorb the heat generated. This experiment shows the influence of number of screen mesh wick on performance of straight heat pipe that use copper pipe. Screen mesh wick that used is screen 100, 200, 250, and 300 mesh. The experiment use copper pipe with a length of 200 mm and diameter 6 mm, 8 mm, and 10 mm with working fluid water. Thermal resistant is measured through the wick with a variety of input power supplied by electric heaters with 6 points along the heat pipe temperature measurement using thermocouples. It was found that the greater the number of screen mesh wick which is used, can improve the performance of heat pipes where the temperature at the evaporator can be reduced to the most up to 20.63% for the screen 300 mesh compare to the screen 100 mesh. This is because the thermal resistance on the straight heat pipe decreased with increasing number of screen mesh wick which is used. The greater the number of screen mesh wick, straight heat pipes that are tested show the number of Heat Transfer Coefficient is greater as well.