Arief Widjaja

An integrated green process: Subcritical water, enzymatic hydrolysis, and fermentation, for biohydrogen production from coconut husk

The objective of this work is to develop an integrated green process of subcritical water (SCW), enzymatic hydrolysis and fermentation of coconut husk (CCH) to biohydrogen. The maximum sugar yield was obtained at mild severity factor. This was confirmed by the degradation of hemicellulose, cellulose and lignin. The tendency of the changing of sugar yield as a result of increasing severity factor was opposite to the tendency of pH change. It was found that CO2 gave a different tendency of severity factor compared to N2 as the pressurizing gas. The result of SEM analysis confirmed the structural changes during SCW pretreatment. This study integrated three steps all of which are green processes which ensured an environmentally friendly process to produce a clean biohydrogen.

Separation of Campesterol and β‐Sitosterol from a Sterol Mixture

Abstract By solvent crystallization using diethyl ether as the solvent on sterol mixture, brassicasterol and stigmasterol that contains a side chain with double bond were separated from campesterol and β‐sitosterol with a saturated side chain. The total campesterol and β‐sitosterol content in the liquid phase was more than 97% with a recovery of 12%. Multistage crystallization using acetone as the solvent could increase the recovery of campesterol and β‐sitosterol to 30%. By employing zeolite selective adsorption on the campesterol and β‐sitosterol fraction, β‐sitosterol can be recovered in the liquid phase with a purity of 95.2% and a recovery of 3% (overall recovery 1%). After desorbing in ethanol, campesterol adsorbed on the zeolite can be recovered with a purity of 95.4% and a recovery of 3.7% (overall recovery 1.6%).

Electrochemical synthesis of nanosized hydroxyapatite by pulsed direct current method

Synthesis of nanosized of hydroxyapatite (HA) by electrochemical pulsed direct current (PDC) method has been studied. The aim of this work is to study the influence of various PDC parameters (pH initial, electrode distance, duty cycle, frequency, and amplitude) on particle surface area of HA powders. The electrochemical synthesis was prepared in solution Ca2+/EDTA4−/PO43+ at concentration 0.25/0.25/0.15 M for 24 h. The electrochemical cell was consisted of two carbon rectangular electrodes connected to a function generator to produce PDC. There were two treatments for particles after electrosynthesized, namely without aging and aged for 2 days at 40 °C. For both cases, the particles were filtered and washed by demineralized water to eliminate the impurities and unreacted reactants. Then, the particles were dried at 100 °C for 2 days. The dried particles were characterized by X-ray diffraction, surface area analyzer, scanning electron microscopy (SEM), Fourier transform infrared spectra and thermogravimetr...

Kinetic Studies of Phytosterol Adsorption on Zeolite

Abstract Equilibrium isotherms of sterol adsorption on zeolite show the characteristics of irreversible equilibrium adsorption. First order and second order surface adsorption control mechanisms as well as micropore diffusion control model failed to satisfactorily describe the kinetics of sterol adsorption on zeolite. From the analysis of adsorption data, it was found that macropore diffusion control model satisfactorily describes the kinetics of sterol adsorption on zeolite. The effect of temperature on the diffusivity during adsorption was found to conform to the Eyring equation. It was shown that a change in temperature has a negligible effect on the selectivity of sterol adsorption on zeolite.

Fatty acid fragmentation of triacylglycerol isolated from crude nyamplung oil

Nyamplung (Calophylluminophyllum) has many benefits ranging from roots, stems, leaves, until seeds. In this seed, C. inophyllum contained significantly high amount of crude oil (70.4%). C. inophyllum oil is known as non edible. Therefore Indonesian people generally only know that seeds can produce oil that can be used for biodiesel. In this work, the fragmentation of fatty acid in triacylglycerols (TAG) was studied. The isolation process was started with separation of non polar lipid fraction (NPLF) from crude C. inophyllum oil via batchwise multistage liquid extraction. TAG was obtained in high purity (99%) and was analyzed by Thin Layer Chromatography (TLC) and Gas Chromatography – Mass Spectrometry (GCMS). It was found that fatty acids of TAG are palmitic acid (C16:0), stearic acid (C18:0), oleic acid (C18:1c), linoleic acid (C18:2c), and linolenic acid (C18:3c). Moreover, TAG isolated from C. inophyllum oil was promising as edible oil.Nyamplung (Calophylluminophyllum) has many benefits ranging from roots, stems, leaves, until seeds. In this seed, C. inophyllum contained significantly high amount of crude oil (70.4%). C. inophyllum oil is known as non edible. Therefore Indonesian people generally only know that seeds can produce oil that can be used for biodiesel. In this work, the fragmentation of fatty acid in triacylglycerols (TAG) was studied. The isolation process was started with separation of non polar lipid fraction (NPLF) from crude C. inophyllum oil via batchwise multistage liquid extraction. TAG was obtained in high purity (99%) and was analyzed by Thin Layer Chromatography (TLC) and Gas Chromatography – Mass Spectrometry (GCMS). It was found that fatty acids of TAG are palmitic acid (C16:0), stearic acid (C18:0), oleic acid (C18:1c), linoleic acid (C18:2c), and linolenic acid (C18:3c). Moreover, TAG isolated from C. inophyllum oil was promising as edible oil.

Effect of temperature and mixing speed on immobilization of crude enzyme from Aspergillus niger on chitosan for hydrolyzing cellulose

Conversion of cellulose into reducing sugar through enzymatic hydrolysis has advantageous because it produces greater product yield, higher selectivity, require less energy, more moderate operating conditions and environment friendly. However, the nature of the enzyme that is difficult to separate and its expensive price become an obstacle. These obstacles can be overcome by immobilizing the enzyme on chitosan material so that the enzyme can be reused. Chitosan is chosen because it is cheap, inert, hydrophilic, and biocompatible. In this research, we use covalent attachment and combination between covalent attachment and cross-linking method for immobilizing crude enzyme. This research was focusing in study of Effect of temperature and mixing speed on Immobilization Enzyme From Aspergillus Niger on Chitosan For Hydrolyzing both soluble (Carboxymethylcellulose) and insoluble Cellulose (coconut husk). This Research was carried out by three main step. First, coconut husk was pre-treated mechanically and chem...

Combined subcritical water and enzymatic hydrolysis for reducing sugar production from coconut husk

Coconut husk wastes are abundantly available in Indonesia. It has a potential to be used into alternative renewable energy sources such as hydrogen using enzymatic hydrolysis followed by a fermentation process. Unfortunately, enzymatic hydrolysis is hampered by the complex structure of lignocellulose, so the cellulose component is hard to degrade. In this study, Combined Subcritical Water (SCW) and enzymatic hydrolysis are applied to enhance fermentable, thereby reducing production of sugar from coconut husk. There were two steps in this study, the first step was coconut husk pretreated by SCW in batch reactor at 80 bar and 150-200°C for 60 minutes reaction time. Secondly, solid fraction from the results of SCW was hydrolyzed using the mixture of pure cellulose and xylanase enzymes. Analysis was conducted on untreated and SCW-treated by gravimetric assay, liquid fraction after SCW and solid fraction after enzymatic hydrolysis using DNS assay. The maximum yield of reducing sugar (including xylose, arabinos...

The use of mud as an alternative source for bioelectricity using microbial fuel cells

Alternative energy sources to substitute fossil-based energy is expected, as the fossil energy reserves decreasing every day. Mud is considered to be economical as the material sources for generating the electricity where it could be found easily and abundantly in Indonesia. The existence of a lot of mud that contains organic material has great potential as a source of electrical energy using microbial fuel cells (MFCs). It provides a promising technology by degrading organic compounds to yield the sustainable energy. The different sampling sites were determined to find out the electricity production, i.e. mud from soil water, brackish water and sea water using an anode immersed of 10 cm2. The results suggest that the electricity generation of the three areas are 0.331, 0.327 and 0.398 V (in terms of voltage); 0.221, 0.050 and 0.325 mA (in terms of electric current), respectively. It is investigated that the mud obtained the sea water exhibits the highest power potential compared to that obtained from the brackish and soil water.