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All Journal Journal of Marine Research REKAYASA
Wiwit Sri Werdi Pratiwi, Wiwit Sri Werdi
Department of Chemistry, Sepuluh Nopember Institute of Technology (ITS), Jl. Arief Rahman Hakim,Sukolilo, Surabaya 60111
Agriculture, Biological Sciences & Forestry Computer Science & IT Earth & Planetary Sciences Electrical & Electronics Engineering Engineering Physics

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Analisis Kadar Magnesium dan Kalium pada Garam Rich Minerals Kartika, Ary Giri Dwi; Pratiwi, Wiwit Sri Werdi; Indriawati, Novi; Jayanthi, Onie Wiwid
Rekayasa Vol 12, No 1: April 2019
Publisher : Universitas Trunojoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (323.457 KB) | DOI: 10.21107/rekayasa.v12i1.5094

Abstract

Pemenuhan sumber mineral dalam makanan yang seimbang mampu menunjang terca­painya kondisi tubuh yang sehat. Garam rich minerals selain digunakan sebagai bumbu dan penyedap makanan, merupakan salah satu sumber mineral yang dibutuhkan oleh tubuh. Kombinasi Ka­n­du­n­gan NaCl dan berbagai mineral lainnya yang tidak dihilangkan dalam proses produksi garam rich minerals mampu menjaga keseimbangan elektrolit dalam tubuh demi memp­ertahankan komposisi keseluruhan fungsi tubuh. Pada penelitian ini, garam rich minerals dihasilkan dari proses penguapan air laut bebas kontaminasi dan tidak menghilangkan berbagai mineral lain­­­nya yang terkandung di dalam air laut. Setiap 1000 ml air laut yang direbus menghasilkan rata-rata 34 gram kristal garam. Data analisis kimia menunjukan kadar air sebesar 5%, NaCl sebesa­r 88% ; kalium sebesar 0.024% serta magnesium sebesar 0.476%. Dari data tersebut garam rich minerals memenuhi SNI syarat mutu garam gurih. Kata kunci: Garam, Rich Minerals, Magnesium, KaliumAnalysis of Magnesium and Potassium Content in Rich Minerals SaltABSTRACTThe Fulfillment of mineral resources in balanced food can support the achievement of a healthy body condition. Rich minerals salt is one of the sources of minerals needed by the body beside it being used as a food seasoning and flavoring. The combination of NaCl content and various other minerals that are not removed in the production process of rich minerals can maintain the electro­lyte balance in the body to maintain the overall composition of body functions. In this study, rich mineral salts were produced from contamination-free seawater evaporation processes and did not eliminate various other minerals contained in seawater. Every 1000 ml of boiled sea water produces an average of 34 grams of salt crystals. Chemical analysis data showed a wate­r content of 5%; NaCl 88%; potassium 0.024% and magnesium 0.476%. From that data, rich minera­ls salt fulfill savory salt quality requirements by SNI. Keywords : Salt, Rich Minerals, Magnesium, Potassium
Produksi MgCl2 dari Bittern melalui Optimalisasi Pemisahan Ion Sulfat Menggunakan Reagen Kalsium Klorida Dihidrat Pratiwi, Wiwit Sri Werdi; Nuzula, Nike Ika; Suci, Desi Suryana; Kartika, Ary Giri Dwi; Effendy, Makhfud
977-2407769
Publisher : Departemen Ilmu Kelautan, Fakultas PerikanJurusan Ilmu Kelautan, Universitas Diponegoro

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/jmr.v10i2.30687

Abstract

Madura memberikan kontribusi terbesar terhadap produksi garam di Jawa Timur. Produksi garam menghasilkan limbah yang disebut bittern. Bittern merupakan air sisa kristalisasi garam yang berbentuk cairan dengan kadar kepekatan >29o Be dan memiliki kandungan utama berupa ion magnesium. Selama ini, hasil bittern dari tambak garam rakyat Kabupaten Pamekasan, Madura digunakan kembali untuk proses produksi garam, dimana kegiatan tersebut dapat menurunkan kualitas garam. Dalam skala industri, bittern dapat digunakan sebagai bahan baku magnesium, namun diperlukan suatu metode untuk memisahkan senyawa lainnya agar tidak mengganggu proses ekstraksi magnesium. Ion sulfat (SO₄²ˉ) merupakan ion terbanyak kedua yang terkandung dalam bittern, sehingga pemisahan ion sulfat merupakan suatu strategi untuk meningkatkan kualitas bittern sebagai bahan baku magnesium klorida. Pada penelitian ini, proses pemisahan ion sulfat menggunakan reagen kalsium klorida dihidrat (CaCl₂.2H₂O) yang ditambahkan pada bittern dengan perbandingan antara SO₄²ˉ dan CaCl₂.2H₂O yaitu P1 = 1:0,90 ; P2= 1:0,95; P3 1:1; P4=1:1,05; dan P5= 1:1,1. Berdasarkan hasil penelitian, dapat disimpulkan bahwa kandungan sulfat pada bittern yaitu 41257,14±757,14 mg/L. Kadar sulfat pada filtrat dengan perlakuan P₁ = 4,14±0,43 mg/L; P₂ = 5,38±0,22 mg/L; P₃ = 7,57±1,14 mg/L; P₄ = 6,57±0,57 mg/L; dan P₅ = 7,48±0,46 mg/L. Penambahan CaCl₂.2H₂O berpengaruh terhadap kadar sulfat pada bittern yang dapat dilihat dari hasil uji ANOVA.  Perlakuan optimal dari uji lanjut DNMR yaitu pada perlakuan ratio molar 1:0,9 dengan nilai rata-rata 4,1429 mg/L dimana dilihat dari rata-rata paling kecil dari perlakuan lainnya. Hasil penelitian ini menjadi penelitian dasar untuk melakukan optimasi ekstrak magnesium klorida dari bahan baku bittern. Madura provides the largest contribution to salt production in East Java. Salt production generates a waste called bittern. Bittern is the residual liquid of salt crystallization with a concentration of 29oBe and has the main content of magnesium ions. Unfortunately, bittern from the salt pond in Pamekasan Regency, Madura is reused for the salt production process, whereby this activity can reduce the quality of salt. On an industrial scale, bittern can be used as a raw material for magnesium, but a method is needed to separate other compounds so it does not interfere with the magnesium extraction process. Sulfate ion (SO₄²ˉ) is the second most abundant ion contained in bittern. Thus, the separation of sulfate ions is a strategy to improve the quality of bittern as a raw material for magnesium chloride. In this study, the separation process of sulfate ions using calcium chloride dihydrate reagent (CaCl₂.2H₂O) added to bittern with a ratio between SO₄²ˉ and CaCl₂.2H₂O, namely P1 = 1:0,90; P2= 1:0,95; P3 1:1; P4=1:1,05; dan P5= 1:1,1. Based on the research results, it can be concluded that the sulfate content in bittern is 41257.14 ± 757.14mg/L. Sulfate levels in the filtrate  were P₁ = 4.14±0.43 mg/L; P₂ = 5.38±0.22 mg/L; P₃ = 7.57±1.14mg/L; P₄ = 6.57±0.57mg/L; and P₅ = 7.48±0.46 mg/L.The addition of CaCl₂.2H₂O has an effect on the sulfate content of bittern which can be exhibited from the ANOVA test results. The optimal treatment of the DNMR test is the treatment of the molar ratio of 1: 0.9 with an average value of 4.1429 mg/L, which is referred from the smallest average of other treatments. The results of this study serve as basic research to optimize the extract of magnesium chloride from bittern as raw material.
Review Analisa Kondisi Optimum Dalam Proses Pembuatan Biogas Kurniati, Yuni; Rahmat, Anni; Malianto, Bilal Ivandra; Nandayani, Dita; Pratiwi, Wiwit Sri Werdi
Rekayasa Vol 14, No 2: Agustus 2021
Publisher : Universitas Trunojoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21107/rekayasa.v14i2.11305

Abstract

Biogas is a gas produced by anaerobic activity with the process of decomposition (degradation) of organic materials. Biogas can be produced from several sources of methane, including domestic (household) waste, biodegradable waste, animal waste, or organic wastes that can be decomposed under anaerobic conditions. This study aims to determine the effect of various conditions (time, pH, stirring time and the type and concentration of inoculum) on biogas production and to analyze the optimum conditions in the biogas production process. This research was conducted with the factors that influence the process of making biogas. Based on the analysis results obtained several processes in the production of biogas, among others, hydrolysis, acetogenesis, asedogenesis, and methanogenesis. The results of the previous experiment were the optimal biogas research from tofu liquid waste, biogas produced with a volume of 26,700 ml, within 36 days and was obtained using an operating temperature of 35-40ᵒC and using cow dung inoculum, and using a 36 liter digester.
Hubungan Fluktuasi Parameter Fisika dalam Produksi Garam Rich Minerals Dengan Media Prototype di Salt House Yoseva, Vellia; Indriyawati, Novi; Pratiwi, Wiwit Sri Werdi; Efendy, Makhfud
Rekayasa Vol 14, No 3: Desember 2021
Publisher : Universitas Trunojoyo Madura

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21107/rekayasa.v14i3.12556

Abstract

Madura Island is one of the largest salt producing areas in Indonesia. Salt is included in the type of complementary ingredients in every dish. Rich Mineral salt is salt obtained from the total crystallization process without removing various minerals contained in the raw materials, so that the mineral content is higher than consumption salt in general. This study aims to describe the fluctuations and the relationship between physical parameters consisting of water temperature, water density and water level during the salt production process. This study uses three prototype geomembranes with a size of 60x40x16 cm in salt production. This study uses quantitative methods in the form of numbers obtained based on facts in the field. The results of this study are that the three prototypes have a temperature range, water density and water level that are not significantly different. This is showed by the results of the ANOVA test, where the P-value of the three prototypes is greater than the alpha value (α). In this study also obtained a correlation value between the parameters of water density and water level. The correlation value resulting from the calculation of the linear equation between the two parameters is 0.93. Based on these results, it can be interpreted that the water density and water level have a correlation relationship of 93%. So, it can be concluded that the higher the water level, the lower the water level.  
Co-Authors Anni Rahmat Effendy, Makhfud Indriawati, Novi Kartika, Ary Giri Dwi Kurniati, Yuni Makhfud Efendy, Makhfud Malianto, Bilal Ivandra Nandayani, Dita Novi Indriyawati, Novi Nuzula, Nike Ika Onie Wiwid Jayanthi Suci, Desi Suryana Yoseva, Vellia