โครงการวิจัยนี้มีวัตถุประสงค์เพื่อใ

This research project aims to take advantage of the palm oil mill effluent to ferment together with the algae. For the production of hydrogen gas by fermentation process air wireless integration one step. Batch fermentation process. Results of experiments on batch fermentation process only by using Palm oil mill effluent, and algae. 10 g-VS/L concentrations showed that optimal fermentation, hydrogen is in the temperature range 50-60 is a Council of WA by Felix Thermo ratio between 0 to 100: BGA POME, 90: 10, 80: 20, 60: 40, 70: 30, 50: 50, 60: 40, 70: 30, 20: 80, 10: 90, 0: 100, which the concentrations 30: 70, the maximum hydrogen yield equals mL 60.61/g.-For hydrocarbon production vs Jane the organic substance can be estimated by empirical treatment from a good SEO value (Chemical oxygen demand, COD) 38.89 percent decrease in this research demonstrates an innovative approach for wastewater treatment plant to extract palm oil which is organic waste from the industry. By biomass and bioenergy production value for mixed gas (hydrogen and methane)

This project aims to take advantage of palm oil mill effluent, together with fermented algae. For producing hydrogen gas by integrating anaerobic fermentation step one. The fermentation batch. The results of batch fermentation step. Using palm oil mill effluent and algae concentrations 10 g-VS / L found that the optimum conditions for hydrogen fermentation in a temperature range of 50-60 is a state thermoelectric Philipp Marx. The ratio between POME With Algae 100: 0,90: 10,80: 20.70: 30.60: 40.50: 50.40: 60.30: 70.20: 80.10: 90.0: 100. The highest hydrogen concentrations at 30:70 yield was 60.61 mL / g-vs education for hydrogen production batch can treat organic waste by identifying the COD (Chemical oxygen demand, COD) fell to a hundred. 38.89 percent this research demonstrate that innovation is possible for the treatment of palm oil mill effluent, which is organic waste from industry. The production of biofuels and biomass, which are worth a gas mixture. (Hydrogen and methane)

The objective of this research is to take advantage of palm oil mill wastewater fermentation together with seaweed. For the production of hydrogen by integrating the fermentation process of anaerobic fermentation process one step by batch.Using palm oil mill wastewater and algae concentration 10 g-VS / L. It was found that the optimal fermentation hydrogen in the temperature range of 50-60 is a state thermo Felix The ratio between the POME with algae 100:0 90: 10 80:,,,, 20 70: 30 60: 40 50: 50 40:,,,, 60 30: 70 20: 80 10: 90, 0: 100 concentration, which 30: 70 hydrogen yield was highest, 60.61 mL / g-vs for hydrogen production batch can be assessed from organic treatment cod (Chemical, oxygen demandCOD) fell to 38 percent.89 this research demonstrates the innovative approach is possible for treatment of wastewater, which belongs to the waste organic palm oil extraction factory from the industry. The production of bio energy and biomass are valued as gas mixtures.