My Abstract:
Asetik asid merupakan bahan kimia yang mampu dihasilkan menggunakan bioproses. Namun begitu, bakteria yang biasa digunakan untuk menghasilkan asetik asid ialah bakteria jenis aerob, dimana bakteria ini memerlukan oksigen untuk menjalankan proses. Demikian itu, kos yang diperlukan untuk menghasilkan asetik asid akan meningkat disebabkan proses ini memerlukan lebih reaktor untuk melengkapkan proses. Namun begitu, kajian ini telah berjaya mendapatkan 5 strain bakteria yang sangat efisyen serta mudah diperolehi melalui tanah dan sisa batang pisang. Bakteria penghasil asetik asid ini dipencilkan dari kultur campuran tanah dan batang pisang secara aseptically serial diluted dan dikenal pasti melalui ujian biokimia dan gram-staining. Kultur dari setiap kepekatan dikulturkan semula secara anaerobik terhadap medium yang mengandungi glucose. 15 strains yang dijumpai dari 57 strains yang berjaya dipencilkan mampu menggunakan glucose untuk menghasilkan asetik asid. Namun begitu, hanya 5 bakteria terbaik yang mampu menghasilkan asetik asid yang terbanyak dipilih untuk dikenalpasti.
Saturday, November 26, 2011
Wednesday, July 28, 2010
methane and FART
What is methane and what is fart??
Methane is a chemical compound with the chemical formula CH4. It is the simplest alkane, and the principal component of natural gas. Methane's bond angles are 109.5 degrees. Burning methane in the presence of oxygen produces carbon dioxide and water. (Thanks To Allah, and thanks to WIKI)
Fart ????...
Ever pull someone's finger and hear a weird noise come out of his or her butt?
Ever sit in a tub of water and see bubbles come out of your hiney?
This strange noise and vibrating sensation that came from your butt is most likely caused by a fart.
Fart is a combination of gases (nitrogen, carbon dioxide, oxygen, methane, and hydrogen sulfide) that travels from a person's stomach to their anus. When a person swallows too much air or eats foods that the human digestive system cannot digest easily gas becomes trapped in his/her stomach. The only way for this excess gas to exit the body is through the anus.
The gas that makes your farts stink is the hydrogen sulfide gas. This gas contains sulfur which causes farts to have a smelly odor. The more sulfur rich your diet, the more your farts will stink. Some foods that cause really smelly farts include: beans, cabbage, cheese, soda, and eggs.
It can be called as gassers, stinkers, air biscuits, bombers, barking spiders, rotten eggs, and wet ones. You can pass gas, break wind, blast, beef, poof, rip one, let one fly, step on a duck, and cut the cheese.
Farts that contain a large amount of methane & hydrogen can be flammable...
So, methane and fart is not the same...but WATCH OUT!...it may be flammable..
Tuesday, July 27, 2010
Bio- Meta- Nasi ?
Biomethanation is a formation of methane and a decomposition process of organic matter by microorganism in the absence of oxygen (Ward et al., 2007; Romana et al., 2000). Biodegradation of cellulosic crop residues, agricultural solid wastes and municipal solid wastes in the absence of oxygen can be used to reduce pollution and produce biomethane as a fuel (Romana et al., 2000). Biomethane or biogas is generally composed of 48% - 65% methane, 36% - 41% carbon dioxide, up to 17 % nitrogen, < 1% oxygen, 32 -169 ppm hydrogen sulphide, and traces of other gases (Rani et al., 2007). The methane and carbon dioxide are potent greenhouse gases which affect the global warming phenomenon. Therefore, controlled biodegradation of organic material is environmentally beneficially. By containing the decomposition processes in a sealed environment, methane is prevented from entering the atmosphere and subsequent burning of the gas will release carbon- neutral carbon dioxide is back to the carbon cycle. The energy gained from combustion of methane will be substituted fossil fuels, reducing the production of carbon dioxide that is not part of the recent carbon cycle (Moller et al., 2004).
Lignocellulosic waste is a promising feedstock for biomethanation. Grasses, including straws from wheat, corn, sugar beet leaves; alfalfa and horse bean are plentiful supply of lignocellulosic waste. The methane yield are typically high from these feedstocks, although recaltritrant materials such as lignocellulosic materials often requires pre-treatments to fully realize the potential yield. Lignocellulose is the most abundant material available for the feedstock. It is composite material of rigid cellulose fibers embedded in a cross-linked matrix of lignin and hemicelluloses. There are almost 40% - 60% cellulose, 20% - 40% hemicelluloses and 10% - 20% of lignin contained in lignocellulose. Banana stem waste is softwood lignocellulose and it may contain of 41% - 57% cellulose, 8% - 12% hemicelluloses and 24% - 27% lignin (Scurlock et al., 2004). Harvesting time can also significantly affects the biogas yield of plants especially softwood lignocellulosic, as demonstrated by Amon et al., (2007); Mari et al., (2008).
The microorganism such as microbacteria and fungi can release the enzyme which can be use to degrade the lignocellulose. In hydrolysis process, the microorganism can be use to degrade the lignocellulose into simpler monomer such as glucose which later can be use as their substrate to produce energy for themselves (anaerobic microorganism) especially during anaerobic environment. Some of anaerobic microorganism is facultative anaerobic where, they can live in both environment either in aerobic environment (with oxygen) or in anaerobic environment (without oxygen). The mesophilic bacteria is the bacteria that live in moderate temperature typically between 15-40oC while, thermophilic bacteria live in high and extreme temperature between 45- 100oC. Few of them, may live in psycrophilic environment which live in -15-10oC.
Lignocellulosic waste is a promising feedstock for biomethanation. Grasses, including straws from wheat, corn, sugar beet leaves; alfalfa and horse bean are plentiful supply of lignocellulosic waste. The methane yield are typically high from these feedstocks, although recaltritrant materials such as lignocellulosic materials often requires pre-treatments to fully realize the potential yield. Lignocellulose is the most abundant material available for the feedstock. It is composite material of rigid cellulose fibers embedded in a cross-linked matrix of lignin and hemicelluloses. There are almost 40% - 60% cellulose, 20% - 40% hemicelluloses and 10% - 20% of lignin contained in lignocellulose. Banana stem waste is softwood lignocellulose and it may contain of 41% - 57% cellulose, 8% - 12% hemicelluloses and 24% - 27% lignin (Scurlock et al., 2004). Harvesting time can also significantly affects the biogas yield of plants especially softwood lignocellulosic, as demonstrated by Amon et al., (2007); Mari et al., (2008).
The microorganism such as microbacteria and fungi can release the enzyme which can be use to degrade the lignocellulose. In hydrolysis process, the microorganism can be use to degrade the lignocellulose into simpler monomer such as glucose which later can be use as their substrate to produce energy for themselves (anaerobic microorganism) especially during anaerobic environment. Some of anaerobic microorganism is facultative anaerobic where, they can live in both environment either in aerobic environment (with oxygen) or in anaerobic environment (without oxygen). The mesophilic bacteria is the bacteria that live in moderate temperature typically between 15-40oC while, thermophilic bacteria live in high and extreme temperature between 45- 100oC. Few of them, may live in psycrophilic environment which live in -15-10oC.
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