Indonesia declared an 'extreme narcotics emergency situation' in July 2017. President Jokowi Administration has taken tough drug stance due to its public health alert that comes together with damaging social economic issues. A survey by Indonesian National Narcotics Board estimated 3.36 million Indonesians suffer narcotics addiction likely in their productive age [2]. Even more so, it is assumed that drug abuse contributes to the death of thirty people daily in Indonesia. The estimated socioeconomic cost of treating the abuse could reach up to eighty billion rupiahs yearly [2]. The long term treatment it takes for the government to assist those with addiction demand comprehensive approach to be successful [16; 20; 21; 22] This study puts forward a claim that a proper cross boundary, intergovernmental health cover system is vital to cope with the social economic damage of the issue. The government's hard line for drug convicts should be in line with the public health assistance for those wanting to get out of addiction cycle as mandated in law no 35 year 2009 on narcotics. The research aims at providing discourse on critical systemic thinking [23; 24; 14] with respect to how and why public-private health partnership model could come up with strategic innovation in terms of providing drug abuse rehabilitation in community service through the partnership with private sector.
Pemanfaatan biogas sebagai salah satu alternatif bahan bakar pada proses brazing merupakan langkah diversifikasi biogas, yang diharapkan dapat meningkatkan tingkat efisiensi dan keramahan teknologi. Permasalahan yang bersifat teknis dan menjadi kendala dalam pemanfaatan biogas ini adalah rendahnya konsentrasi CH4 dikarenakan adanya pengotor utama berupa air, karbondioksida dan asam disulfida. Penelitian dilakukan melalui dua tahap yaitu tahap pressureized storage process meliputi pemisahan komponen pengotor yang terdapat dalam biogas melalui teknik absorbsi sehingga dihasilkan biogas yang berkualitas gas alam terbarukan dan proses injeksi ke dalam suatu tangki penyimpanan, dan tahap selanjutnya adalah menggunakan biogas tersebut pada proses brazing logam Cu (tembaga) dengan bahan tambah Ag (silver). Analisis hasil brazing dilakukan melalui analisis struktur mikro (metalografi) untuk melihat kualitas tampak dari hasil brazing, serta analisis kekerasan mikro dan analisis parameter fisik standar terhadap hasil proses brazing. Penelitian ini telah menghasilkan perangkat alat pemurnian biogas yang dapat memurnikan biogas menjadi metana mendekati 100% dan sistem pengemasan (storage system) biogas bertekanan hingga 2 bar. Dari hasil analisis struktur mikro dan uji kekerasan mikro diketahui bahwa hasil proses brazing dengan biogas menghasilkan kualitas yang sama dengan hasil proses brazing dengan gas acetylene sehingga disimpulkan bahwa biogas dapat menjadi bahan bakar alternatif untuk proses brazing, khususnya untuk logam Cu dengan bahan tambah Ag. Kata kunci : Biogas, Pressureized Storage, Brazing
Dissimilar weld-metal joints in aluminum alloys 5083 and 6061-T6 are often found in aircraft, railroad structures, ships, bridges, oil platforms, and building structures. However, welding of dissimilar metals is relatively more difficult due to the different metallurgy and thermophysical properties of the two alloys. The purpose of this study is to evaluate the physical-mechanical properties of the Tungsten Arc Welding (GTAW) process through numerical simulations of different welded joints between the 5083 and 6061-T6 aluminum alloys. The GTAW welding simulation process is carried out by 300 x 100 x 3 mm plate butt joints along 300 mm. GTAW weld metal is prepared for tensile test samples and metal alloy composition, the test is observed in the base metal and welded area. The results of the chemical composition test of the weld metal obtained that the composition is close to Al 5083 base metal so that the mechanical properties of the weld metal tend to be identical with Al 5083 alloy. The results of numerical simulation on the mechanical properties of GTAW weld metal at temperature conditions of 25 to 700 °C obtained several things, including 1) the range of thermal conductivity decreased from 174.393 to 86.424 W/mK. 2) The density increased from 2,348 to 2,663 gr/cm3. 3), the young modulus appears to decrease from 68,667 to 0 GPa. 4) the shear modulus decreases from 25,724 to 0 GPa. 5) the type of heat increases from 0.904 to 17,306 J/gK, and 6) the Poisson ratio increased from 0.335 to 0.5.
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