Tejas Chandrashekhar Mulky scite author profile

Smoldering combustion plays an important role in forest and wildland fires. Fires from smoldering combustion can last for long periods of time, emit more pollutants, and be difficult to extinguish. This makes the study of smoldering in woody fuels and forest duff important. Cellulose, hemicellulose, and lignin are the major constituents in these type of fuels, in different proportions for different fuels. In this paper, we developed a 1-D model using the open-source software Gpyro to study the smoldering combustion of cellulose and hemicellulose mixtures. We first validated our simulations against experimentally obtained values of propagation speed for mixtures with fuel compositions including 100%, 75%, 50%, and 25% cellulose, with the remaining proportion of hemicellulose. Then, we studied the effects of varying fuel composition, density, and moisture content on smoldering combustion. We find that propagation speed of smoldering increased with decreases in density and increases in hemicellulose content, which we attribute to the role of oxygen diffusion. Propagation speed increased with moisture content for pure cellulose up to a certain limiting value, after which the propagation speed dropped by up to 70%. The mean peak temperature of smoldering increased with increases in hemicellulose content and density, and decreased with increasing moisture content.

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Corrigendum to “Effects of fuel content and density on the smoldering characteristics of cellulose and hemicellulose” [Proc. Combust. Inst. 37 (2019) 4107-4116]

Smucker

Mulky

Cowan

et al. 2021

Proceedings of the Combustion Institute

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Design and Testing of a High-Efficiency Rapid Throughput Community-Scale Water Pasteurization System

MacCarty

Burleson

Moses

et al. 2017

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Procurement of clean drinking water is one of the most important challenges facing 1 in 10 people in the world today. While there are many technologies available to disinfect water, there is still great opportunity for appropriate, sustainable technologies for low-resource or emergency situations. Pasteurizing water is an effective way to eliminate life-threatening pathogens such as bacteria, viruses, and protozoa, and requires a lower temperature (71° C) compared to traditional boiling (100° C). This research details the development and testing of a water pasteurization system that works with the 60 Liter InStove to produce upwards of 4,500 liters of safe drinking water per day at minimal cost to the users and the environment. This flow-through system uses a combination of a heating coil, thermostatic valve, fixed volume kill chamber, and heat exchanger for heat recovery immersed in a large pot of heated water. Initial performance testing revealed that the pasteurizer produced 6.7 liters of water per minute with an energy input of 9.1 grams of equivalent dry wood per liter (175 kJ/L) at steady-state operation accounting for startup time. Microbiological testing revealed that water initially inoculated with >100,000 bacteria/ml of E. coli had no colonies remaining after treatment, for a 99.999% reduction in contamination levels. Future work will include measurement and modeling of the flow and temperature profiles throughout the system to optimize its heat transfer performance and production costs, field testing, and user-centered system-level design that develops the end-to-end solution needed to acquire and deliver clean drinking water including maintenance, container disinfection, and development of business models to support local water production.

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Data, Plotting Scripts, And Figures For "Computational Study Of The Effects Of Density, Fuel Content, And Moisture Content On Smoldering Propagation Of Cellulose And Hemicellulose Mixtures"

Niemeyer¹,

Mulky²

2018

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