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Reaktor
Published by Universitas Diponegoro
ISSN : 08520798     EISSN : 24075973     DOI : https://doi.org/10.14710/reaktor.xx.x.xx-xx
Core Subject : Science, Engineering,
Chemical Engineering, Chemistry & Bioengineering Control & Systems Engineering Energy Materials Science & Nanotechnology
Reaktor invites contributions of original and novel fundamental research. Reaktor publishes scientific study/ research papers, industrial problem solving related to Chemical Engineering field as well as review papers. The journal presents paper dealing with the topic related to Chemical Engineering including: Transport Phenomena and Chemical Engineering Operating Unit Chemical Reaction Technique, Chemical Kinetics, and Catalysis Designing, Modeling, and Process Optimization Energy and Conversion Technology Thermodynamics Process System Engineering and products Particulate and emulsion technologies Membrane Technology Material Development Food Technology and Bioprocess Waste Treatment Technology
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 9 Documents
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Search results for , issue "Volume 17 No.1 Maret 2017" : 9 Documents clear
Bagian Belakang Reaktor No. 17 No. 1 Maret 2017 Widayat, W
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

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Abstract

Daftar indeks judul, obyek dan subyek
FOULING BEHAVIOR OF MODIFIED CELLULOSE ACETATE ASYMMETRIC MEMBRANES FOR DIFFERENT BRACKISH WATER TREATMENT Tutuk Djoko Kusworo; B Budiyono; Eva Sofiana; Ulfah Nurul Aulia Rochyani; Dani Puji Utomo
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (31.232 KB) | DOI: 10.14710/reaktor.17.1.43-52

Abstract

Water treatment technology which is being widely developed is membrane technology as an alternative technology with sieving mechanism principle.The main purposes of this research are to investigate the effects of additives and thermal treatment on the cellulose acetate membrane morphology and performance in treating brackish water.The membrane was fabricated by preparation of dope solution consits of cellulose acetate and acetone. The membrane was casted via NIPS method using mechanic casting knife. Dope solution was prepared by varying the PEG concentration of 1 and 5wt-% and the annealing temperature at 60°C and 25°C for 10 seconds. The backwash technique was used to solve fouling mechanism in this system .The results of SEM and FTIR showed that theb higher PEG addition to the dope solution resulted in larger membrane pore size and increase the hydrophilic properties of membrane. However the higher temperature and the longer annealing timg, the skin layer of membrane become denser. The result was also shown that back wash technique can reduced fouling phenomenon in the membrane. 
PENGARUH KONSENTRASI NaOH DAN WAKTU PENAHANAN TERHADAP KARAKTERISTIK ZEOLIT YANG DISINTESIS DARI LIMBAH GEOTHERMAL Sulardjaka Sulardjaka; Deni Fajar Fitriana
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1511.71 KB) | DOI: 10.14710/reaktor.17.1.17-24

Abstract

Abstract THE EFFECT OF CONCENTRATION OF NaOH AND HOLDING TIME ON CHARACTERISTIC OF ZEOLIT SINTHESIZED FROM GEOTHERMAL WASTE. Objective of this research is to investigate the effect of concentration of NaOH and holding time on the characteristic of synthesized zeolite from geothermal waste. Geothermal waste was used as silica source and hydrothermally processed for zeolite synthesized. Variation concentration of NaOH was 1.67, 3, and 5 M and variation of holding time are 1, 3, and 5 hours. Synthesized products were characterized by XRD, FTIR and SEM photomicrograph. It can be concluded that the rise of concentration of NaOH reduce the cristalization time and crystal size. Increasing of concentration of NaOH and holding time produce divers zeolite structure. At holding time 5 h and NaOH 1.67 M produces zeolite A. At holding time 5 h and NaOH concentration 3 M produce zeolite P. Sodalite is produced at concentration NaOH 5 M with holding time 5 h. Keywords: hydrothermal; geothermal waste; zeolite   Abstrak Penelitian ini bertujuan untuk meneliti pengaruh konsntrasi NaOH dan waktu penahanan terhadap karakteristik zeolit yang disintesis dari limbah geothermal. Limbah geothermal dipilih sebagai bahan silika pada sintesis zeolit dengan metode hidrothermal. Penelitian dilakukan dengan variasi konsentrasi NaOH: 1,67, 3, dan 5 M, dan variasi waktu penahanan 1, 3 dan 5 jam. Produk hasil sintesis dikarakterisasi dengan XRD, FTIR dan foto SEM. Hasil dari penelitian ini menunjukkan bahwa  tinggi konsentrasi NaOH kristalisasi zeolit A semakin cepat, sehingga ukuran kristal semakin kecil. Konsentrasi NaOH yang semakin tinggi dan waktu penahanan yang semakin lama, menghasilkan  jenis struktur zeolit yang lebih beragam. Pada waktu penahanan 5 jam, variasi konsentrasi NaOH 1,67 M menghasilkan zeolit A, variasi konsentrasi NaOH 3M menghasilkan zeolit P (NaP1) dan pada variasi konsentrasi NaOH 5M menghasilkan sodalit. Kata kunci: hydrothermal; limbah geothermal; zeolit
Peningkatan Unjuk Kerja Katalisator Zeolit Alam Bayah pada Reaksi Ketalisasi Gliserol Nuryoto Nuryoto; Hary Sulistyo; Wahyudi Budi Sediawan; Indra Perdana
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (489.371 KB) | DOI: 10.14710/reaktor.17.1.9-16

Abstract

Abstract IMPROVED PERFORMANCE OF BAYAH NATURAL ZEOLITE AS CATALYST ON   REACTION OF GLYCEROL KETALIZATION. The catalyst has an important role for the rates of chemical reactions accelerating in orde to achieve the target product of reaction. Reactants mass transfer to the active sites of the catalyst is oftenbe anobstacle to reaching of this purpose, so that the catalyst performance becomes less than the maximum. The objective of this research was to observe how much effected the diameter size catalyst, stirring speed, and catalyst concentration  in order to improved performance of Bayah natural zeolite catalyst on glycerol ketalization reaction based on glycerol conversion. The experiments were performed using a batch reactor, reaction temperature of 50oC, reactant ratio of 6:1 mol of acetone/mol of glycerol, reaction time of 90 minutes, diameter size catalyst from -18+25 until -60+70 mesh, catalyst concentration of 0-11% mass of glycerol, and stirring speed of 200-800 rpm. The results showed that the best conditions obtained at the diameter size catalyst of -40+45 mesh, catalyst concentration of 9% mass of glycerol, and stirring speed of 600 rpm by glycerol conversion reached of 60.92%. Keywords: glycerol; ketalization; performance; natural zeolite   Abstrak Katalisator mempunyai peranan penting dalam mempercepat laju reaksi kimia untuk mencapai target produk reaksi yang diinginkan. Perpindahan massa reaktan ke sisi aktif katalisator seringkali menjadi kendala dalam mencapaimaksud tersebut, sehingga unjuk kerja katalisator menjadi kurang maksimal. Penelitian ini bertujuan untuk melakukan observasi seberapa besar pengaruh ukuran diameter katalisator, kecepatan pengadukan, dan konsentrasi katalisator dalam rangka meningkatkan unjuk kinerja katalisator zeolit alam Bayah pada reaksi ketalisasi gliserol berbasis konversi gliserol yang dihasilkan. Percobaan dilakukan dengan menggunakan reaktor batch, suhu reaksi 50oC, perbandingan pereaksi 6:1 mol aseton/mol gliserol,waktu reaksi 90 menit, ukuran diameter katalisator -18+25 sampai -60+70 mesh, konsentrasi katalisator 0-11% massa gliserol, dan kecepatan  pengadukan 200-800 rpm. Hasil percobaan menunjukkan bahwa kondisi terbaik diperoleh pada ukuran diameter katalisator -40+45 mesh, konsentrasi katalisator 9% massa gliserol, dan  kecepatan pengadukan 600 rpm  dengan konversi gliserol mencapai 60,92%. Kata kunci: gliserol;  ketalisasi; unjuk kerja; zeolit alam
PEMBUATAN SELULOSA TERASETILASI DARI PULP BAMBU BETUNG (Dendrocalamus asper) SERTA PENGARUHNYA TERHADAP SIFAT MEKANIS BIOKOMPOSIT POLIPROPILENA Wida Banar Kusumaningrum; R Rochmadi; S Subyakto
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (481.611 KB) | DOI: 10.14710/reaktor.17.1.25-35

Abstract

Abstract ACETYLATED CELLULOSE FROM BETUNG BAMBOO (Dendrocalamus asper) PULP PRODUCTION AND ITS EFFECT ON MECHANICAL PROPERTIES OF POLYPROPYLENE COMPOSITES. The utilization of natural fiber as reinforcing agent for biocomposite products have some drawbacks, such as its hydrophilicity that are incompatible with PP. Isolation from bundle fibers into micro fibers could improves the biocomposite properties. However, more moisture absorption of micro fiber makes it difficult to handle. Therefore, modification with acetylation is needed to facilitate good interfacial adhesion between cellulose and PP. The objectives of this research are to obtain acetylated micro fibers from betung bamboo pulp for reinforcing agent and to investigate the effect of acetylated cellulose on mechanical properties of PP biocomposites. Acetate anhydride as acetylating agent and sulfuric acid as a catalyst were used for acetylation process. Acetylated cellulose from betung bamboo pulp with fibrous form, hydrophobic condition, and relatively on high aspect ratio was obtained in 2% of catalyst concentration and 120 of reaction time. Strength enhancement were achieved up to 79 and 87% for tensile while 24 and 69% for flexural, respectively for biocomposites with 10% and 20% of acetylated cellulose than that PP. Modulus improvement were obtained up to 53 and 70% for tensile while 96 and 149% for flexural, respectively for biocomposites with 10% and 20% of acetylated cellulose than that PP. Keywords: acetylation; betung bamboo; biocomposite; polypropylene; cellulose   Abstrak Penerapan serat alam untuk produk biokomposit memiliki beberapa kelemahan terutama perbedaan sifat antara matrik dengan serat yang menyebabkan ikatan antar muka yang kurang baik. Pengolahan serat bundle menjadi serat mikro dapat meningkatkan sifat-sifat biokomposit, akan tetapi sifat dari serat mikro yang mudah menyerap air membuat penanganannya menjadi lebih komplek. Modifikasi kimia serat dengan asetilasi merupakan upaya untuk meningkatkan keterbasahan dan ikatan antar muka dengan matrik PP. Tujuan dari penelitian ini adalah untuk memperoleh serat mikro terasetilasi dari pulp bambu betung agar dapat digunakan sebagai penguat dan mempelajari pengaruhnya terhadap sifat mekanis biokomposit PP. Proses asetilasi menggunakan asetat anhidrat sebagai bahan pengasetilasi dan asam sulfat sebagai katalis. Serat mikro bambu betung terasetilasi yang bersifat hidrofobik dan memiliki aspek rasio tinggi diperoleh pada jumlah katalis 2% dengan waktu 120 menit. Peningkatan kuat tekuk mencapai 76 dan 87% sedangkan kuat tarik sekitar 24 dan 69% masing-masing untuk biokomposit dengan selulosa terasetilasi 10% dan 20% terhadap PP murni. Keteguhan tarik meningkat hingga 53 dan 70% sedangkan keteguhan tekuk mencapai 96 dan 149% berturut-turut untuk biokomposit dengan 10% dan 20% selulosa terasetilasi dibandingkan PP. Selulosa terasetilasi dari pulp bambu betung mampu berfungsi sebagai bahan pembentuk inti untuk biokomposit PP. Kata kunci: asetilasi; bambu betung; biokomposit; polipropilena; selulosa
Optimasi Proses Ozonasi pada Depolimerisasi κ-Karagenan dengan Metode Respon Permukaan Aji Prasetyaningrum; Ratnawati Ratnawati; Bakti Jos
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (402.829 KB) | DOI: 10.14710/reaktor.17.1.1-8

Abstract

Abstract OPTIMIZATION OF OZONATION PROCESS FOR κ-CARRAGEENAN DEPOLYMERIZATION USING RESPONSE SURFACE METHODOLOGY. The objective of this research is to optimize the operating parameters in depolymerization of κ-carrageenan by ozone treatment. The optimization is done by using Box-Bhenken Design (BBD) model with ozonation time (5-15 minute), pH (3-11) and temperature (20-40oC) as the independent variables.The response of ozonation process is the degree of depolymerization of κ-carrageenan (DP). The initial molecular weight of refined κ-karagenan was 271 kDa. The κ-carrageenans powder was completely dissolved in distilled water to form 1% (weight/volume). The experiments were carried out in a 2000 ml of a glass reactor with an ozone gas sparger. The inlet ozone concentration was 80±2 ppm. The result shows that ozonation time, pH and temperature have significant effects during ozonation process (p< 0.05). Analysis of variance shows that the experimental data fit the model very well with the R2 value of 0.98. The optimum conditions during ozonation process are achieved at the reaction time of 15 min, ozonation pH of 3 and reaction temperature of 25oC. Under these optimum conditions the DP of κ-carrageenan is 91.513%. Keywords: depolymerization; κ-carrageenan;optimization; ozonation process   Abstrak Tujuan penelitian ini adalah menentukan kondisi optimum parameter operasi depolimerisasi κ-karagenan dengan perlakuan ozonasi. Optimasi dilakukan dengan menggunakan model statistika Box-Bhenken Design (BBD) dengan variabel yang digunakan yaitu waktu ozonasi (5-15 menit), pH (3-11), dan suhu (20-40oC). Respon dari proses ozonasi adalah derajat depolimerisasi κ-karagenan (DP). Berat molekul awal refined κ-karagenan adalah 271 kDa. Sampel κ-karagenan dilarutkan secara sempurna dalam air distilasi dan konsentrasi diatur 1% (berat/volume). Percobaan dilakukan dalam reaktor gelas volume 2000 ml yang dilengkapi dengan sparger gas ozon. Konsentrasi gas ozon yang masuk adalah 80±2 ppm. Hasil penelitian menunjukkan bahwa waktu ozonasi, pH, dan suhu berpengaruh secara signifikan terhadap proses ozonasi (p<0,05). Analisis varian menghasilkan ketelitian yang tinggi antara data eksperimen dan prediksi, dengan nilai koefisien R2 = 0,98. Kondisi optimum diperoleh pada waktu ozonasi 15 menit, pH ozonasi 3 dan temperatur reaksi 25oC. Pada kondisi optimum ini diperoleh DP κ-karagenan sebesar 91,513%. Kata kunci:depolimerisasi; κ-carrageenan;optimasi; proses ozonasi 
Pengaruh Konsentrasi Doping Nitrogen (N) pada Material Fotokatalis Seng Oksida (ZnO) Terhadap Degradasi Limbah Zat Pewarna Tekstil Heri Sutanto; Eko Hidayanto; Muhammad Irwanto; Agus Romadhon; Yoyon Wahyono
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (381.44 KB) | DOI: 10.14710/reaktor.17.1.36-42

Abstract

Abstract THE EFFECT OF NITROGEN (N) DOPING IN PHOTOCATALYST MATERIAL OF ZINC OXIDE (ZnO) ON DEGRADATION OF WASTE OF TEXTILES DYE. The textile industry produces 50% of the wasted dye and liquid waste which can cause damage to the river ecosystem. The results of synthesis and characterization of N-ZnO photocatalysts and its ability to degrade waste water of batik dye by identifying of the effect of nitrogen (N) doping on ZnO were reported in this paper. Synthesis of N-ZnO material was performed using sol-gel method at room temperature, then the solution was deposited on a glass substrate at 450oC with a spray coating method. N-ZnO was prepared by N doping with different percentages of 0, 3, 5, 7 and 9%, respectively. Degradation of dye waste was performed under UV radiation for 12 hours. The synthesis results show that thin layers have wurtzite polycrystalline structure with dominant orientation field (002). The addition of N doping causes the value of the energy band gap of ZnO to be smaller. The test results of photocatalysts show that the addition of doping N on ZnO does not have a significant influence on the percentage of degradation waste batik dye under UV light. The best ability of N-ZnO photocatalytic was obtained in 5% of N doping, and the degradation percentage, COD and BOD were 11.83%, 6.12% and 6.40% respectively. Keywords: degradation; N doped; ZnO photocatalyst; batik dye waste   Abstrak Industri tekstil menghasilkan 50% zat warna yang terbuang dan menjadi limbah dalam bentuk cair yang dapat mengakibatkan rusaknya ekosistem sungai. Pada paper ini dilaporkan hasil sintesis dan karakterisasi fotokatalis N-ZnO serta uji kemampuan fotokatalitiknya dalam mendegradasi limbah cair zat pewarna batik dengan mengidentifikasi pengaruh doping Nitrogen (N) pada ZnO. Sintesis material N-ZnO menggunakan metode sol-gel pada temperatur kamar, kemudian larutan dideposisi di atas substrat kaca pada temperatur 450oC dengan metode spray coating. Material N-ZnO dibuat dengan persentase doping N yang berbeda yaitu 0, 3, 5, 7, dan 9%. Degradasi limbah zat warna dilakukan dibawah radiasi sinar UV selama 12 jam. Hasil sintesis menunjukkan bahwa lapisan tipis mempunyai struktur polikristal wurtzite dengan bidang orientasi dominan (002). Penambahan doping N secara umum menyebabkan terjadinya pengecilan nilai celah pita energi ZnO. Hasil uji fotokatalitik menunjukkan bahwa penambahan doping N pada ZnO tidak memberikan pengaruh yang signifikan terhadap persentase degradasi limbah cair pewarna batik dibawah cahaya UV. Diperoleh kemampuan uji fotokatalitik N-ZnO terbaik pada doping N sebesar 5% dengan nilai % degradasi sebesar 11,83%, COD 6,12% dan BOD 6,40%. Kata kunci: degradasi; doping N; fotokatalis ZnO; limbah pewarna batik .
BIODELIGNIFIKASI ENCENG GONDOK UNTUKMENINGKATKAN DIGESTIBILITAS PADA PROSESHIDROLISIS ENZIMATIK Eka Sari; S Syamsiah; Hary Sulistyo; Muslikhin Hidayat
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (288.351 KB) | DOI: 10.14710/reaktor.17.1.54-60

Abstract

Abstract  Water hyacinth is one of lignocellulose that has potential to bioethanol feedstocks. This is due to the high content of cellulose and hemicellulose its rapid growth and the plant is abundant in nature. Bioconversion of water hyacinth begins with biodelignification process. This biodelignification aims to remove lignin and reduce crystallinity  of cellulose and hemicellulose to increase its digestibility in enzymatic hydrolysis processes. The purpose of this study was to evaluate the effect of biodelignification of water hyacinth using  fungi  and the effect on the digestibility of water hyacinth in the enzymatic hydrolysis process. In this study, Biodelignification using Solid State Fermentation (SSF) method using Phanerochaete Chrysosporium (PC). Hyacinth is inserted in a bioreactor and incubated for 28 days. The analysis of composition of water hyacinth is conducted every 4 days. After the biodelignification process followed by hydrolysis process using cellulase enzyme. Glucose generated from this hydrolysis process will be analyzed using the Somogyi Nelson method. The results show that biodelignification process can improve the digestibility of water hyacinths characterized by increased glucose yield. Without biodelignification process, glucose yield only reached 3.98%. After biodelignification prior to the hydrolysis process, the highest glucose yield was achieved at 67.66% for 16 days incubation. Keywords: biodeglinification;glucose;hydrolysis;lignin; cellulast Abstrak Enceng gondok adalah salah satu lignoselulosa yang berpotensi untuk dijadikan bahan baku bioetanol. Hal ini disebabkan oleh kandungan selulosa dan hemiselulosa yang tinggi dan pertumbuhannya yang cepat sehingga ketersediaannya di alam sangat melimpah. Biokonversi enceng gondok dimulai dengan proses biodelignifikasi. Biodelignifikasi ini bertujuan menghilangkan lignin dan mengurangi kristalinitas selulosa dan hemiselulosa untuk meningkatkan digestibilitasnya pada proses hidrolisis enzimatik. Tujuan dari penelitian ini adalah mengevaluasi pengaruh biodelignifikasi enceng gondok dengan jamur terhadap digestibilitas enceng gondok pada proses hidrolisis enzimatik. Biodelignifikasi pada penelitian ini menggunakan metode Solid State Fermentation (SSF) menggunakan jamur Phanerochaete Chrysosporium (PC). Enceng gondok dimasukan dalam sebuah bioreaktor dan diinkubasi selama 28 hari. Analisis perubahan komposisi enceng gondok dilakukan setiap 4 hari. Setelah proses biodelignifikasi dilanjutkan dengan proses hidrolisis menggunakan enzim selulase. Glukosa yang dihasilkan dari proses hidrolisis ini akan dianalisis menggunakan metode Somogyi Nelson. Hasil penelitian menunjukkan bahwa proses biodelignifikasi dapat meningkatkan digestibilitas enceng gondok yang ditandai dengan meningkatnya yield glukosa. Tanpa proses biodelignifikasi, yield glukosa hanya mencapai 3,98%. Setelah dilakukan biodelignifikasi sebelum proses hidrolisis maka yield glukosa tertinggi dicapai sebesar 67,66% selama 16 hari inkubasi. Kata kunci:biodeglinifikasi;glukosa;hidrolisis;lignin; selulase
Bagian Depan Reaktor Vol 17 No. 1 Maret 2017 Widayat, W
Reaktor Volume 17 No.1 Maret 2017
Publisher : Dept. of Chemical Engineering, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (483.087 KB)

Abstract

Bagian depan Reaktor yang terdiri dari Cover, Daftar isi, Daftar pengelola atau editorial serta pengantar dari Redaksi Raktor

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