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- All Subjects: biochar
- Creators: Chhetri, Netra
Description
In Nepal, a viable solution for environmental management, food and water security is the production of biochar, a carbon material made of plants burned in low oxygen conditions. Currently, the biochar is manufactured into charcoal briquettes and sold on the market for energy usage, however this may not provide the best value for community members who make less than a dollar a day and sell the biochar for as little as 16 cents per kilogram. This thesis seeks to improve the price of biochar and help their livelihoods as well as explore innovative solutions. One way to improve biochar while addressing water security problems is to create activated carbon, which uses its heightened porosity to adsorb contaminants from water or air. Activated carbon is also worth 100x the price of biochar. This thesis evaluates the mass content of biochar produced in Nepal, comparing it to literature values, and performed gravimetric and thermogravimetric analysis, comparing it to Activated Charcoal. Analysis of the biochar system used in Nepal reveals that the byproduct of biochar, biofuels, is highly underutilized. The higher heating value of biochar is 17.95 MJ/kg, which is much lower than other charcoals which burn around 30 MJ/kg. Low volatile content, less than 5% in biochar, provides a smokeless briquette, which is favorable on the market, however low heating value and misutilizations of biofuels in the solution indicate that creating a briquette is not the best use for biochar. Ash content is really high in this biochar, averaging around 12% and it may be due to the feedstock, a composite between Mikania and Lantana, which have 5.23% and 10.77% ash content respectively. This does not necessarily indicate a poor quality biochar, since ash values can vary widely between charcoals. Producing activated charcoal from this biochar is a favored solution; it will increase the price of the biochar, provide water security solutions, and be an appropriate process for this biochar, where heating value and underutilization of biofuel byproducts pose a problem.
ContributorsCayer, Joelle Marie Caroline (Author) / Chhetri, Netra (Thesis director) / Henderson, Mark (Committee member) / Deng, Shuguang (Committee member) / Chemical Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
After visiting Nepal and seeing the problem of potable drinking water, there needed to be a solution to purify it. Simultaneously, local national forests have been overrun with two invasive plant species: Mikania micrantha and Lantana camara. Both a very fast-growing species and can be turned into biochar. If the resulting is made through an effective process, then the community would be able to work less making each batch of biochar and make more money per batch, whereby the market already exists. The community could grow their profits even further by activating the created charcoal, which fetches an even better price. Most Importantly, among other important uses, the activated charcoal could also be used in clean drinking water systems. The prospect of using activated charcoal as water purifying agents can be tested in a future design of experiments. This design of experiments would assess the effectiveness of the activated charcoal, to determine which pore size is the most cost effective at filtering out pollutants. This thesis focuses on researching different types of biochar kilns, clean drinking water systems, and the use of charcoal in clean drinking water systems.
ContributorsBarron, Timothy (Author) / Chhetri, Netra (Thesis director) / Henderson, Mark (Committee member) / Engineering Programs (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05