The usage of alternative fuel as a substitute of oil fuel for transportation sector in developed countries has been commonly implemented in order to decrease crude oil consumption, where in a few years back, the crude...The usage of alternative fuel as a substitute of oil fuel for transportation sector in developed countries has been commonly implemented in order to decrease crude oil consumption, where in a few years back, the crude oil price is constantly increasing. In addition, global warming issue becomes one of reasons that motivate many countries to switch for a cleaner energy usage. As a country that has a relatively big reserve of natural gas, its appropriate natural gas could minimize subsidized oil fuel and also financing country's burden if Indonesia is optimizing the usage of energy resources. This paper will discuss about the background of gas fuel usage for road transportation sector in Indonesia, review of alternative fuel usage, the gas fuel usage status in Indonesia and gas usage recommendation for land transportation sector in Indonesia based on other countries experiences.展开更多
Ammonia in wastewater is a major pollutant produced in industrial and agricultural wastewaters. Ammonia is often removed by conventional technologies such as pack tower aeration, biological treatment or adsorption as ...Ammonia in wastewater is a major pollutant produced in industrial and agricultural wastewaters. Ammonia is often removed by conventional technologies such as pack tower aeration, biological treatment or adsorption as ammonium ion onto zeolites. In many cases, conventional methods are very costly and inefficient, and therefore there is a need for an alternative separation technique for more efficient removal of ammonia from wastewaters. The aim of this study is to investigate the performance of combination of ozonation and absorption through membrane processes to remove ammonia from wastewater using NHSW (natural hot spring water) as absorbent. Experimental results show that hollow fiber membrane contactor has potential application for ammonia removal from wastewater. Operating variables such as time and pH of absorbent solution are found to remarkably influence the removal process efficiency.. Based on experimental results ozonation can improve ammonia removal efficiency through hollow fiber membrane contactor. Ammonia removal efficiencies and overall mass transfer coefficients increase with decreasing pH of absorbent solution.展开更多
A natural polymer composite is the main choice to replace composites from petroleum derivatives. A composite is formed in two or more phases (i.e., organic and inorganic phases). A composite that has specified energ...A natural polymer composite is the main choice to replace composites from petroleum derivatives. A composite is formed in two or more phases (i.e., organic and inorganic phases). A composite that has specified energy band gap, electrical conductivity, and tensile strength can be used as semiconductor material. The objective of this research was to study the effect of production methods, concentration and type of metal oxide filler (TiO2, A1203, Fe203, and ZnO) on structure, energy band gap, and electrical conductivity of composites. Composites were prepared using a melt intercalation process with tapioca as a matrix and addition of 1%, 3%, 5o and 7% filler concentrations, and sonication processing time in interval of 40, 50, and 60 min. Structure and morphology of the composite were analyzed using FT-IR, XRD, SEM, and TEM. UV-vis was used to measure the energy band gap while electrical conductivity was measured using a potentiostat through determination of resistivity. In addition, tensile strength and elongation were measured by ASTM 822-02. The energy band gap of the tapioca/metal oxide composite was between 4.9-1.62 eV. Electrical conductivity showed a percolation thresholds for concentrations of 3%-5% TiO2, A1203, and Fe203 and 7% ZnO. The tapioca/ZnO composite with 5% ZnO and 50 min of processing time showed a maximum tensile strength of 74.84 kgf/cm2, 6% elongation, 1.27 - 10^-7ohm^-1cm^-1 electrical conductivity and energy band gap of 3.27 eV. The characteristics described show that the tapioca/metal oxide composite can be used as a semiconductor material.展开更多
文摘The usage of alternative fuel as a substitute of oil fuel for transportation sector in developed countries has been commonly implemented in order to decrease crude oil consumption, where in a few years back, the crude oil price is constantly increasing. In addition, global warming issue becomes one of reasons that motivate many countries to switch for a cleaner energy usage. As a country that has a relatively big reserve of natural gas, its appropriate natural gas could minimize subsidized oil fuel and also financing country's burden if Indonesia is optimizing the usage of energy resources. This paper will discuss about the background of gas fuel usage for road transportation sector in Indonesia, review of alternative fuel usage, the gas fuel usage status in Indonesia and gas usage recommendation for land transportation sector in Indonesia based on other countries experiences.
文摘Ammonia in wastewater is a major pollutant produced in industrial and agricultural wastewaters. Ammonia is often removed by conventional technologies such as pack tower aeration, biological treatment or adsorption as ammonium ion onto zeolites. In many cases, conventional methods are very costly and inefficient, and therefore there is a need for an alternative separation technique for more efficient removal of ammonia from wastewaters. The aim of this study is to investigate the performance of combination of ozonation and absorption through membrane processes to remove ammonia from wastewater using NHSW (natural hot spring water) as absorbent. Experimental results show that hollow fiber membrane contactor has potential application for ammonia removal from wastewater. Operating variables such as time and pH of absorbent solution are found to remarkably influence the removal process efficiency.. Based on experimental results ozonation can improve ammonia removal efficiency through hollow fiber membrane contactor. Ammonia removal efficiencies and overall mass transfer coefficients increase with decreasing pH of absorbent solution.
文摘A natural polymer composite is the main choice to replace composites from petroleum derivatives. A composite is formed in two or more phases (i.e., organic and inorganic phases). A composite that has specified energy band gap, electrical conductivity, and tensile strength can be used as semiconductor material. The objective of this research was to study the effect of production methods, concentration and type of metal oxide filler (TiO2, A1203, Fe203, and ZnO) on structure, energy band gap, and electrical conductivity of composites. Composites were prepared using a melt intercalation process with tapioca as a matrix and addition of 1%, 3%, 5o and 7% filler concentrations, and sonication processing time in interval of 40, 50, and 60 min. Structure and morphology of the composite were analyzed using FT-IR, XRD, SEM, and TEM. UV-vis was used to measure the energy band gap while electrical conductivity was measured using a potentiostat through determination of resistivity. In addition, tensile strength and elongation were measured by ASTM 822-02. The energy band gap of the tapioca/metal oxide composite was between 4.9-1.62 eV. Electrical conductivity showed a percolation thresholds for concentrations of 3%-5% TiO2, A1203, and Fe203 and 7% ZnO. The tapioca/ZnO composite with 5% ZnO and 50 min of processing time showed a maximum tensile strength of 74.84 kgf/cm2, 6% elongation, 1.27 - 10^-7ohm^-1cm^-1 electrical conductivity and energy band gap of 3.27 eV. The characteristics described show that the tapioca/metal oxide composite can be used as a semiconductor material.