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Abstrak :
Salah satu jenis bahan bakar alternatif yang berpotensi dapat dikembangkan dan mampu menyumbang angka bauran EBT secara signifikan adalah biomassa. Signifikansi bauran energi didapatkan dari penggunaan sistem co-firing pada Pusat Listrik Tenaga Uap (PLTU) dengan mencampur bahan bakar batubara dengan biomassa seperti sawdust. Biomassa sawdust sebagai bahan co-firing PLTU sangat efisien karena mempunyai kandungan energi dan ketersediaan yang mudah dikelola. Penelitian bertujuan untuk membuat analisis teknik dan keekonomian biomassa sawdust sebagai bahan bakar padat PLTU Co-firing tipe boiler pulverized coal. Tahapan penelitian yaitu memetakan potensi biomassa sawdust untuk mengetahui ketersediaan potensi biomassa di sekitar lokasi PLTU Co-firing, menganalisa sisi teknis dan spesifikasi yang terdapat di bahan baku biomassa sawdust untuk mengetahui kecocokan atau kelayakan dengan spesifikasi PLTU tipe boiler pulverized coal, dan menganalisa kelayakan keekonomian pengembangan teknologi pengolahan biomassa sawdust untuk mengetahui biaya pokok produksi biomassa sawdust sehingga nantinya tidak berdampak secara teknis dan finansial khususnya pada kenaikan biaya pokok penyediaan pembangkit serta emisi lingkungan. Hasil dari potensi pemetaan biomassa dapat mengimplentasikan co-firing hingga 9,91 % dari rencana co-firing 5%. Analisa keekonomian menunjukkan bahwa usaha produksi biomassa sawdust layak dijalankan dengan parameter NPV 0 > Rp. 3.268.834.655, IRR 11,19% dan payback periode 7,35 tahun dengan harga biomassa Rp780.501/Ton. Perhitungan BPP co-firing biomassa yang disimulasikan tidak menaikan biaya BBP Pembangkitan karena terdapat selisih lebih kecil dari BBP Batubara sebesar Rp 0,55/kWh. ......One type of alternative fuel that has the potential to be developed and is able to contribute significantly to the NRE mix is biomass. The significance of the energy mix is obtained from the use of the co-firing system at the Steam Power Plant (PLTU) by mixing coal fuel with biomass such as sawdust. Sawdust biomass as co-firing material for PLTU is very efficient because it has energy content and availability that is easy to manage. The aim of this research is to analyze the technique and economics of sawdust biomass as solid fuel for Co-firing PLTU pulverized coal type boiler. The research stages are mapping the potential of sawdust biomass to determine the availability of potential biomass around the location of the Co-firing PLTU, analyzing the technical side and specifications contained in sawdust biomass raw materials to determine the suitability or feasibility of PLTU specifications for pulverized coal boiler type, and analyzing the economic feasibility of the development. sawdust biomass processing technology to determine the cost of production of sawdust biomass so that later it will not have a technical and financial impact, especially on the increase in the cost of providing power generation and environmental emissions. The results of the potential for mapping biomass can implement co-firing of up to 9.91% of the 5% co-firing plan. Economic analysis shows that the sawdust biomass production business is feasible with the NPV parameter >IDR. 3,268,834,655, IRR 11.19% and payback period of 7.35 years with a selling price of Rp780.501/MT. Calculation of simulated biomass co-firing BPP does not add to the cost of Generation BBP because the difference is smaller than Coal BBP of IDR 0.55/kWh.

Abstrak :
At this moment, the Republic of Indonesia is continuing to develop nation-made weapon and armory, to support the industry of national defense. One of the newest achievements in rifle making is the SS-2 type. Therefore, it needs more evaluation in ergonomic aspects, in order to avoid occurrence of aspects of the weapon which could cause bad effect to the shooting performance and the health of soldiers in long term. This matter could be eliminated in the making process of the SS-2, consider more intensely on its ergonomic aspects. Noise is a part of ergonomic concern which has been one crucial matter in industry, especially in manufacturing plants. Noise has been proven to cause bad effects on human's health. In analyzing noise generates by firing sound observation on three primary acoustic factors are needed These factors are sound intensity (dB), frequency (Hz), and duration of sound exposure (ms). ANOVA analysis, correlation analysis, maximum permissible impulse noise, and continuous sound analysis are used to draw the relation between shooting position (standing, squat, prone), and the acoustic (noise) factors, relation between noise factors and shooter performance, and the maximum number of permissible impulse noise (firing sauna) per day. Based on those analyses, the noise impact on soldiers' health and performance could be seen therefore any preventive measures in dealing with noise impact can be implemented.

Abstrak :
Phosphate Sludge (PS) waste has been a problem in metal surface finishing industry. The waste cannot be dumped in landfill due to the metal content. Valorisation of the waste will be beneficial in a way that it conserves natural reserves and reduces energy consumption. This paper describes the attempt of utilization of PS by mixing it in kaolin in preparation of ceramic bricks. A series of experiments showed that mixtures containing between 25–50 mass % PS sintered at 1200oC attained the highest compressive strength of >25 MPa. X-ray diffractions (XRD) showed that the presence of PS hindered the formation of mullite, the phase that contribute to strength in Al2O3–SiO2 kaolin system. In the mixture of 1:1 kaolin: PS fired at 1200oC, cristobalite was formed, instead of mullite, as observed in the XRD patterns.

Abstrak :
Upaya besar-besaran di berbagai dunia telah dilakukan untuk mengurangi emisi CO₂ dari penggunaan bahan bakar fosil dengan mencari alternatif bahan bakar pengganti bahan bakar fosil pada pembangkit sekaligus mengurangi dampak terhadap lingkungan. termasuk didalamnya mendorong pemanfaatan biomassa sampah. dalam sektor energi dengan teknologi co-firing. Pemerintah Indonesia saat ini telah mengeluarkan SNI 8966:2021 guna mempercepat pemanfaatan limbah biomassa sampah sebagai bahan baku pembuatan bahan bakar jumputan padat atau RDF di pembangkit listrik (BSN, 2021. BBJP sampah yang memiliki nilai kalori 1800 dilakukan uji co-firing di PLTU Indramayu yang memakai batubara bernilai kalor 4100kcal/kg dengan perbandingan massa 1% BJPP dan 99% Batubara. Penelitian ini bertujuan untuk menganalisa kelayakan secara  tekno ekonomi, operasional dan dari segi lingkugan jika dilakukan uji co-firing dengan BBJP  sampah di PLTU. Pengolahan BBJP dari sampah menggunakan konsep kerjasama dengan DLH Kabupaten Indramayu. Tempat pengolahan BBJP dilakukan di Pusat Daur Ulang Indramayu dengan metode peuyeumisasi. Dalam kurun waktu 11 hari didapatkan produksi BBJP sebesar 14ton yang akan disuplai sebagai bahan bakar campuran co-firing di PLTU Indramayu. Pengamatan operasi di PLTU Indramayu selama proses co-firing BBJP 1% menunjukkan parameter yang masih dalam batas aman operasional, namun terjadi peningkatan emisi SO₂ dan NO_x yang masih di bawah baku mutu emisi KLHK.  Hasil Analisa tekno ekonomi menunjukkan jika terdapatkan kenaikan LCOE sebesar 0,16-rupiah pada pengujian co-firing dengan BBJP 1%, sedangkan untuk parameter Net Present Value (NPV) didapatkan nilai Rp.40.437.359, parameter Internal rate return (IRR) sebesar 8,25%, parameter Profitability index (PI) sebesar 1,011 dan yang terakhir payback periode (PBP) sebesar 6,63 tahun menunjukkan kelayakan untuk investasi proyek pengolahan BBJP. Dari segi keekonomian dari masyarakat sekitar memberikan peluang penyerapan tenaga kerja dan penyediaan bisnis material konsumable untuk proyek pengolaan BBJP. ...... Massive efforts have been made to reduce CO₂ emissions around the world from the used of fossil fuels by seeking alternative fossil fuels in power plants. The utilization of waste in the energy sector with co-firing technology is one way to reduce the impact on the environment. The Indonesian government is currently issuing SNI 8966:2021 to take advantage by using of biomass waste as raw material for making Refused Derived Fuel or RDF in power plants (BSN, 2021. RDF which has a calorific value of 1800 kcal/kg will be tested in PLTU Indramayu which the coal has caloric value 4100 kcal/kg. The mass ratio for blending is 1% RDF and 99% Coal. This study aims to analyze the feasibility of economical, operational, and environmental if co-firing test carried out with waste RDF at PLTU. RDF is processed from waste using the concept of collaboration with DLH Indramayu. RDF processing site is carried out at PDU Indramayu using the peuyeumization method. Within 11 days, the plant produced RDF 14 tons which will be supplied as mixed fuel for co-firing PLTU Indramayu. Operational observations at the Indramayu PLTU during the 1% BBJP co-firing process showed parameters that were still within operational safe limits, but there was an increase in SO₂ and NO_x emissions which were still below the KLHK emission standards. The results of the techno-economic analysis show that if there is an increase in LCOE of 0.16-rupiah in the co-firing test with 1% BBJP, while for the Net Present Value (NPV) parameter a value of Rp.40,437,359 is obtained, the Internal rate return (IRR) parameter is 8.25%, the Profitability index (PI) parameter is 1.011 and the last payback period (PBP) is 6.63 years indicating the feasibility of investing in the BBJP processing project. From an economic point of view, the surrounding community provides opportunities for employment and business provision of consumable materials for RDF processing projects.

Abstrak :
ABSTRAK
The personal scope of employment law is the subject of much ongoing debate. Arguing that an exclusively contractual analysis of this domain is unsatisfactory, the author constructs a European-based empirical typology distinguishing the personal work relations of standard "employees", public officials, "liberal professions", individual entrepreneurial workers, marginal workers, and labour market entrants. These categories and their inter-relationships are then analysed dynamically in terms of "personal work nexuses" - a concept encompassing complex legal ramifications beyond the contractual framework. The conclusions highlight the value of this analytical approach to recent efforts by the ILO and the European Commission to "modernize" labour law.

Abstrak :
Peningkatan jumlah penduduk telah mendorong peningkatan kebutuhan energi, terutama untuk transportasi dan listrik. Sementara itu, produksi energi fosil yang terus menurun memaksa pemerintah mengimpor minyak bumi untuk memenuhi kebutuhan dalam negeri. Untuk mengantisipasi cadangan energi fosil nasional yang semakin terbatas dan kebutuhan energi masyarakat yang semakin meningkat, pemerintah menggalakkan penggunaan energi terbarukan. Salah satu upayanya adalah dengan co-firing biomassa di pembangkit listrik berbahan bakar batu bara. Di PLTU Indramayu, biomassa yang dipilih adalah sekam padi yang telah mengalami perlakuan pemadatan dan pemanasan, untuk mendapatkan biomassa dengan densitas dan nilai kalor yang lebih baik dari bentuk fisik sekam padi. Batubara sebagai bahan bakar di PLTU Indramayu memiliki nilai kalori rata-rata 4200 kCal/kg, sedangkan pelet sekam padi memiliki nilai kalori rata-rata 3400 kCal/kg. Uji bakar untuk co-firing perlu dilakukan untuk mengetahui kinerja operasi peralatan unit pembangkit. Uji co-firing pada penelitian ini masih terbatas pada komposisi 1% biomassa dan 3% biomassa yang membutuhkan pelet sekam padi sebanyak 43,2 ton dan batubara sebanyak 3196,8 ton. Sebelum dilakukan uji pembakaran boiler, juga dilakukan simulasi numerik Computational Fluid Dynamics (CFD) untuk mendapatkan gambaran awal. Hasil simulasi dan pengujian bahan bakar dengan komposisi sampai 3% biomassa menunjukkan bahwa parameter operasi berada dalam batas normal. Daya output masih bisa mencapai 300 MW, temperatur FEGT 908 ^oC, fuel flow di pulverizer berkisar 34 – 37 ton/jam, arus pulverizer 33 A. Emisi yang dihasilkan masih di bawah baku mutu sesuai Peraturan Menteri Lingkungan Hidup Nomor 15 Tahun 2019, yaitu emisi SO₂ 51,46 mg/Nm³ dan NO₂ 37,19 mg/Nm³. Ditinjau dari keekonomiannya, harga pelet sekam padi Rp 551.558,00 / ton, masih di bawah Harga Patokan Tertinggi di PLTU Indramayu yaitu Rp 552.129,00 / ton. ...... The increase in population has driven increased demand for energy, especially for transportation and electricity. Meanwhile, fossil energy production continues to decline, forcing the government to import petroleum to meet domestic needs. In order to anticipate the increasingly limited national fossil energy reserves and the increasing public energy needs, the government is promoting the use of renewable energy. One of the efforts is by co-firing biomass in coal-fired power plants. At PLTU Indramayu, the selected biomass is rice husk which has undergone pelletization treatment, compaction, and heating, to obtain biomass with a high density and calorific value better than the physical form of rice husk. Coal as fuel in PLTU Indramayu has an average calorific value of 4200 kCal/kg, while rice husk pellets have an average calorific value of 3500 kCal/kg. Combustion tests for co-firing need to be carried out to determine the operating performance of generating unit equipment. Co-firing tests in this study were still limited to a composition of 1% biomass and 3% biomass which required a total of 43.2 tonnes of rice husk pellets and 3196.8 tonnes of coal. Before the boiler combustion test, computational fluid dynamics (CFD) numerical simulations were also carried out to get an initial description. The results of the simulation and fuel tests show that the operating parameters are in normal limits. The output power is 300 MW, FEGT temperature is 908 ^oC, fuel flow in the pulverizer ranges from 34 – 37 tons/hour, pulverizer current is 33 A. The emissions are produced below the quality standards according to the Minister of Environment Regulation Number 15 of 2019, which is SO₂ emissions 51.46 mg/Nm³ and NO₂ 37.19 mg/Nm³. From an economic perspective, the price of rice husk pellets is IDR 551,558.00 / ton, still below the highest benchmark price at PLTU Indramayu, which is IDR 552,129.00 / ton.

Abstrak :
Arsenic contaminated sludge can be substantially found from the treatmen of arsenic contaminated ground water. Lake of proper management and reuse of this sludge can create further environmental problem as there is probability of mixing with soil and water....

Abstrak :
This research is to study the effects of _firing temperature and holding time on characteristics of Directed Metal Oxidation (DIMOAQ Ceramic Matrix Composites (CMCs) SiC /' A1 product. In this research, the firing temperature and holding time used are varied from 900° C to 1300° C with holding time 10 and 20 hours for each temperature. The characterizations of composite products are examined such as density and porosity test, micro hardness test, microstructure examination and chemical composition test. The results show that SiC preform has been infiltrated by Al liquid at tiring temperature of 1100"C for 20 hours. Composite product with the highest density (3,54 gram / cm3) can be obtained at firing temperature of 1100°C for 20 hours. Porosity tents to increase with increasing firing temperature. Composite product with highest micro hardness (1820 VHM can be obtained at firing temperature of 1300°C for 10 hours. At the some firing temperature, composite at products micro hardness for 20 hours tower than composite product with holding time I0 hours. Distribution of SiC particles spread over quite uniform on SiC/A1 composites product. Around SiC particles can be found Al, spinel (MgAl2O2). Al2O2, and possibility Mg,Si.

Abstrak :
Diantara jenis pembangkit listrik yang ada di Indonesia, Pembangkit Listrik Tenaga Uap (PLTU) merupakan sumber energi listrik terpenting dengan porsi 65,6% dari total produksi listrik nasional. Namun, emisi yang dihasilkan PLTU berperan sebagai penyumbang terbesar dalam menghasilkan gas rumah kaca. Teknologi co-firing merupakan metode yang dianggap efektif untuk mengurangi emisi karbon dan berbagai polutan lainnya dengan menggunakan campuran sekam padi dan batu bara sebagai bahan bakar PLTU. Namun demikian, metode tersebut berdampak pada penurunan kapasitas daya maksimum dan efisiensi pembangkit, terutama pada efisiensi boiler. Pada penggunaan sekam padi sebanyak 25% terhadap batubara, diperoleh penurunan daya mampu pembangkit hingga 2,59% dengan nilai efisiensi boiler sebesar 83,79% atau 1,32% lebih rendah jika menggunakan murni batubara; yang menghasilkan biaya rugi-rugi energi boiler sebesar 42,21 miliar rupiah. Lebih lanjut, penggunaan sekam padi dengan persentase yang lebih besar menghasilkan biaya rugi-rugi energi boiler semakin meningkat dibandingkan hanya dengan menggunakan batubara. ......Among the existing types of power plants in Indonesia, coal fired power plants (CFPP) are the most important source of electrical energy with a portion of 65.6% of the total national electricity production. However, the emissions produced by CFPP play a role as the largest contributor in producing greenhouse gases. The co-firing technology is an effective method for reducing carbon emissions and other pollutants by using a mixture of rice husks and coal as CFPP fuel. Nevertheless, this method has an impact on reducing maximum power capacity and efficiency of the power plant, especially the efficiency of the boiler. When using 25% rice husk for coal, there is a decrease in the maximum capable power up to 2.59% with a boiler efficiency value of 83.79%, or 1.32% lower if using pure coal; as well as the cost of boiler energy losses of 42.21 billion rupiah. When using 25% rice husk for coal, there is a decrease in the maximum capable power up to 2.59% with a boiler efficiency value of 83.79%, or 1.32% lower if using pure coal; as well as the cost of boiler energy losses of 42.21 billion rupiah. Furthermore, the increasing use of rice husks in co-firing makes the cost of boiler energy losses greater than using only coal.