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"This study aims to develop a seawater distiller that can be used to purify water by using electrical energy to power the heating elements used in the condensation phase of distillation. Varying numbers of water heating elements and water levels in the evaporator unit were analyzed to determine the ideal device configuration. The distillation device consisted of a container unit, a water level control unit, and an evaporation chamber unit. Distillation was conducted in two experiments, one with a water level of 8 cm and the other, 4 cm, in the evaporation unit. Each experiment comprised eight tests, in which 1–6 water heating elements were used in various configurations; identical configurations were used in both experiments. The seawater used was obtained from the Indian Ocean off Balekambang Beach, Malang Regency, Indonesia. The largest purified water volume obtained among the 16 experimental conditions was 3.94 L at a cost of IDR 790 per liter. The effectiveness percentage toward water quality improvement in terms of pH, electrical conductivity, TDS, and maximum salinity was 9.88%, 99.98%, 99.96%, and 100%, respectively. In the future, a full-scale experiment will be conducted on site. The use of this device will therefore benefit people in areas with water scarcity."

"Air merupakan kebutuhan pokok bagi setiap makhluk hidup dan diperlukan dalam berbagai kegiatan manusia. Namun, pertumbuhan penduduk dan urbanisasi yang terus meningkat menyebabkan krisis air bersih di seluruh dunia. Sumber air bersih seperti air sungai dan air tanah yang semakin berkurang dan tercemar menyebabkan dibutuhkannya alternatif sumber air baku lainnya yang jumlahnya melimpah untuk diolah, seperti air laut. Pengolahan air laut dengan metode adsorpsi menggunakan adsorben menawarkan pengolahan yang lebih sederhana dan aman untuk lingkungan. Penelitian ini bertujuan untuk membandingkan kemampuan tongkol jagung dan grafit sebagai adsorben dalam menyisihkan kandungan senyawa organik dalam air laut dan brine. Proses adsorpsi senyawa organik dari air laut dan brine dilakukan dengan menghomogenkan adsorben dan sampel menggunakan orbital shaker sesuai dengan variasi dosis adsorben dan waktu kontak yang telah ditentukan. Hasil penelitian menunjukkan bahwa grafit lebih baik dalam menyisihkan senyawa organik pada air laut dan brine, dengan dosis dan waktu optimum yaitu 20 g/L selama 45 menit, di mana menghasilkan efisiensi penyisihan tertinggi 33,66% pada air laut dengan kapasitas adsorpsi 4,67 mg/g dan efisiensi penyisihan 31,9% dengan kapasitas adsorpsi 4,38 pada brine. Selain itu, diperoleh bahwa proses adsorpsi dengan tongkol jagung dan grafit lebih mengikuti isoterm Langmuir. Adapun proses adsorpsi dengan tongkol jagung lebih mengikuti kinetika adsorpsi orde satu (pseudo-first order), sedangkan proses adsorpsi dengan grafit lebih mengikuti kinetika adsorpsi orde dua (pseudo-second order).

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Water is a basic need for every living creature and is needed in various human activities. However, population growth and increasing urbanization are causing a clean water crisis throughout the world. Clean water sources such as river water and ground water are increasingly decreasing and being polluted, causing the need for alternative sources of raw water which are abundant for processing, such as sea water. Seawater processing using the adsorption method using adsorbents offers simpler and safer processing for the environment. This research aims to compare the ability of corn cobs and graphite as adsorbents in removing organic compounds in seawater and brine. The adsorption process of organic compounds from seawater and brine is carried out by homogenizing the adsorbent and sample using an orbital shaker according to predetermined variations in adsorbent dose and contact time. The results showed that graphite was better at removing organic compounds from seawater and brine, with an optimum dose and time of 20 g/L for 45 minutes, which resulted in the highest removal efficiency of 33.66% in seawater with an adsorption capacity of 4,67 mg/g and removal efficiency of 31.9% with an adsorption capacity of 4,38 in brine. In addition, it was found that the adsorption process with corn cob and graphite more closely followed the Langmuir isotherm. The adsorption process with corn cobs follows pseudo-first order adsorption kinetics, while the adsorption process with graphite follows pseudo-second order adsorption kinetics."

"Melimpahnya sumber daya laut Indonesia membuat negara ini kaya akan potensi untuk memperdagangkan sumber daya laut tersebut ke pasar nasional maupun internasional. Pada tahun 2020 sumber daya perikanan tangkap memiliki angka sebesar 29114,13 ton. Untuk menjaga kualitas mutu ikan agar tatap baik maka diperlukan media pendinginan yang baik pula. Ice slurry merupakan media pendingin ikan dengan kualitas pendinginan yang merata. Hal ini membuat nelayan dapat menjaga kualitas ikan agar tetap segar dan tidak mengalami pembusukan selama berada di atas kapal. Pada penelitian ini akan bertujuan untuk mengimplementasikan ice slurry generator yang memiliki sistem water treatment air laut yang berfungsi sebagai pereduksi kandungan berbahaya yang terdapat pada air laut untuk kapal ikan 25 GT. Membawa mesin ice slurry generator di kapal yang sedang berlayar tentunya harus didukung oleh alat dan bahan yang memadai pada saat sedang berlayar, penelitian ini menggunakan alat penukar kalor sebagai kondensor dan evaporator, dimana pada kondensor terjadi petukaran kalor antara refrigerant 404a dengan air laut. Penelitian ini mencakup gambaran desain ice slurry generator serta water treatment system dengan menggunakan alat penukar kalor berjenis shell and tube. Pemasangan ice slurry generator bertujuan untuk memenuhi kebutuhan es pada kapal ikan 25 GT sebanyak 465 kg/hari. Penelitian menggunakan air laut Teluk Jakarta dimana Air Laut tersebut tercemar oleh logam berat Merkuri (Hg) sehingga dirancang 3 tingkat absorpsi Merkuri (Hg) dengan menggunakan koagulan Ferro Sulfat (FeSO4), filterisasi secara fisika oleh MMF, dan absorpsi Merkuri oleg Granular Activated Carbon. Hasil rancangan alat penukar kalor memiliki batas agar tidak over design dan minimnya pressure drop. Hasil rancangan alat penukar kalor dari kondensor ini memiliki effisiensi 75% hingga 99%.

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The abundance of Indonesia's marine resources makes this country rich in potential to trade these marine resources to national and international markets. In 2020 capture fisheries resources had a figure of 29114,13 tons. To maintain fish quality so that it looks good, an excellent cooling medium is also needed. Ice slurry is a fish cooling medium with a uniform cooling rate. This allows anglers to maintain the quality of the fish so that it remains fresh and does not decay while on the boat. This study aims to implement an ice slurry generator with a seawater water treatment system that functions as a reducer of harmful substances contained in seawater for 25 GT fishing vessels. Carrying an ice slurry generator machine on a sailing ship must, of course, be supported by adequate tools and materials while sailing. This research uses a heat exchanger as a condenser and an evaporator, wherein the condenser heat exchange occurs between refrigerant 404a and seawater. This research includes an overview of the design of an ice slurry generator and a water treatment system using a shell and tube-type heat exchanger. The installation of the ice slurry generator aims to meet the ice demand on 25 GT fishing vessels as much as 465 kg/day. The study used seawater in Jakarta Bay, where the seawater was polluted by heavy metal Mercury (Hg) so that three levels of absorption of Mercury (Hg) were designed using a coagulant Ferro Sulfate (FeSO4), physical filtration by MMF, and absorption of Mercury by Granular Activated Carbon. The results of the design of the heat exchanger have a limit so as not to over-design and minimal pressure drop. The results of creating the heat exchanger from this condenser have an efficiency of 75% to 92%."