KAJIAN TERHADAP KINETIKA KONVERSI BIOMASSA ORGANIK MENJADI BIOGAS PADA REAKTOR BIOGAS TIPE PARTITION

MARYANI, NENENG (2014) KAJIAN TERHADAP KINETIKA KONVERSI BIOMASSA ORGANIK MENJADI BIOGAS PADA REAKTOR BIOGAS TIPE PARTITION. Other thesis, Politeknik Negeri Sriwijaya.

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Abstract

STUDY OF THE CONVERSION KINETICS OF ORGANIC BIOMASS INTO BIOGAS IN BIOGAS REACTOR PARTITION TYPE (Neneng Maryani, 67 Pages, 18 Tables, 28 Figures, 4 Appendix) Kinetics or the rate of reaction is the change in concentration of reactants or products in a unit time. Kinetics can be expressed as the rate of decrease in the concentration of a reagent, or the rate of increase in concentration of a product. Information used to determine the kinetics of the reaction that the steps in the travel reagent to determine outcome of a particular reaction as desired. The raw materials used in the form of organic biomass (cabbage) are converted into biogas through fermentation process. In the fermentation process will be observed hydrolysis, asidogenesis and metanogenesis reaction through observation such as temperature, pressure and lindi water pH checks. Products were analyzed biogas composition and calorific value of moles in Sucofindo, so this research is to study of the conversion kinetics in terms of substrate reaction time and to determine the rate constant of the reaction kinetics of the conversion organic biomass into biogas in the biogas reactor partition type in terms of concentration product from biogas produced. Lindi water recycle process with flow rate variations are 15 and 20 L/min. From the calculation results obtained the value of constanta reactions (k) lindi water recycle flow rate 15 L/min at 0,0443 L mol-1 det-1 and in the lindi water recycle flow rate 20 L/min have value of k is 0,0215 L mol-1 det-1. Keywords: Constanta of Kinetics Reaction, Organic Biomass, Product Concentration, Biogas.

Item Type: Thesis (Other)
Uncontrolled Keywords: Constanta of Kinetics Reaction, Organic Biomass, Product Concentration, Biogas.
Subjects: T Technology > TP Chemical technology
Divisions: Chemical Engineering > Undergraduate Theses
Depositing User: Mrs Trisni Handayani
Date Deposited: 18 Jan 2016 08:38
Last Modified: 18 Jan 2016 08:38
URI: http://eprints.polsri.ac.id/id/eprint/874

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