Proses Gasifikasi Limbah Padat Aren Menggunakan Fixed-Bed Updraft Gasifier dengan Variasi Jenis Bahan

Jurnal Offshore: Oil, Production Facilities and Renewable Energy Pub Date : 2018-12-21 DOI:10.30588/JO.V2I2.400

Ucik Ika Fenti Styana, M. S. Cahyono

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Abstract

Salah satu potensi sumber energi di Indonesia adalah limbah biomasa berupa limbah padat industri aren. Tujuan penelitian ini adalah untuk mengetahui pengaruh jenis bahan terhadap suhu reaktor dan efisiensi proses gasifikasi limbah padat aren. Bahan baku yang digunakan didapatkan dari Sentra Industri Tepung Aren di Dusun Daleman, Kecamatan Tulung, Kabupaten Klaten. Sebelum diproses bahan dikeringkan terlebih dahulu dengan dijemur di bawah sinar matahari selama sehari, kemudian dilakukan analisa proksimat. Variabel penelitian adalah jenis bahan berupa limbah padat aren murni, campuran limbah padat aren dan tempurung kelapa, serta tempurung kelapa murni. Proses gasifikasi diawali dengan memasukkan bahan ke dalam reaktor tipe Fixed-bed Updraft Gasifier, kemudian dinyalakan sampai keluar gas yang bisa terbakar dan diuji selama satu jam. Syn gas yang terbentuk dianalisa kandungan gasnya, kemudian dibakar untuk mengetahui efisiensinya. Hasil penelitian menunjukkan bahwa jenis bahan mempengaruhi suhu proses di dalam reaktor, dimana suhu optimal dicapai pada gasifikasi tempurung kelapa murni, yaitu proses pengeringan pada suhu 120 °C, pirolisis 340 °C, Reduksi 650 °C, dan oksidasi 721 °C. Gas yang dihasilkan tersebut dapat terbakar selama 15 menit, dibandingkan campuran limbah padat aren - tempurung yang terbakar 8 menit dan limbah padat aren murni yang hanya mampu terbakar 1 menit.One of the potential energy sources in Indonesia is biomass waste in the form of palm sugar solid waste. The purpose of this study was to determine the effect of the type of material on the reactor temperature and the efficiency of the sugar palm solid waste gasification process. The raw materials used were obtained from the Palm Sugar Flour Industrial Center in Daleman Hamlet, Tulung District, Klaten Regency. Before processing the material is first dried by drying it in the sun for a day, then proximate analysis is done. The research variable is the type of material in the form of pure sugar palm solid waste, a mixture of palm sugar solid waste and coconut shell, and pure coconut shell. The gasification process is initiated by inserting the material into the Fixed-bed Updraft Gasifier type reactor, then igniting the flammable gas and testing it for one hour. The syn gas formed is analyzed for its gas content, then burned to find out its efficiency. The results showed that the type of material influences the process temperature inside the reactor, where the optimum temperature is achieved in pure coconut gas gasification, namely the drying process at 120 °C, pyrolysis 340 °C, Reduction 650 °C, and oxidation 721 °C. The resulting gas can burn for 15 minutes, compared to a mixture of aren solid waste - shells that burn for 8 minutes and pure aren solid waste that can only burn for 1 minute.

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印度尼西亚潜在的能源来源之一是一种农业高密度废物。本研究的目的是确定这些材料对反应堆温度和糖棕榈钙化废物过程的效率的影响。使用的原料来自Klaten区Daleman村的棕榈棕榈棕榈棕榈。先用干燥的材料在阳光下晒一天，然后进行proksimat分析。研究变量是纯棕榈固体废物、高密度棕榈废物和棕榈壳以及纯椰子壳的混合物。自任务过程开始，将材料放入fixedd Updraft ga梅毒类型的反应堆中，然后启动一小时的可燃气体并进行测试。形成的气体的Syn经过分析，然后燃烧以确定其效率。研究结果表明这种材料影响反应堆里的过程,温度达到最佳温度在哪里gasifikasi纯椰子壳在120°C的温度下干燥过程,即pirolisis 340°C,氧化还原反应650°C, 721°C。能够燃烧产生的气体混合15分钟相比,固体废物燃烧的壳- 8分钟的棕榈和固体废物的高纯度的棕榈只能燃烧1分钟。一号潜在的能量之器在印尼是生物质能浪费in the form of棕榈糖固体的荒原。这个研究的目的是为了个重大效应》式的新版》《反应堆温度和材料棕榈糖固体废物gasification的过程。《raw材料以前是获得来自《哈姆雷特Daleman棕榈糖面粉工业中心,土区,克拉滕摄政。在加工之前境是第一dried材料:干这孙for a day,然后proximate分析正在做。境材料研究可变式》是form of pure糖棕榈坚实的荒原,a mixture棕榈糖固体的荒原和椰子壳,纯椰子壳。加法处理程序是通过吸收有毒气体排毒法进行的，然后抽出燃烧的气体并测试一小时。formed气体的syn分析了它的潜在气体，然后燃烧以发现它的effiency。《型》results那里那个influences材料的过程里面的温度反应堆,那里的最佳温度是achieved》纯椰子gasification气体,namely擦干的过程在120°C, pyrolysis 340°C,减少650°C和oxidation 721°C。可再生气体燃烧15分钟，可与8分钟燃烧的软糖混合混合废弃物相比，浓稠的甘蔗渣只会燃烧1分钟。

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Jurnal Offshore: Oil, Production Facilities and Renewable Energy

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