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144 results on '"Street, Jason"'

1. MoistNet: Machine Vision-based Deep Learning Models for Wood Chip Moisture Content Measurement

Author

Rahman, Abdur, Street, Jason, Wooten, James, Marufuzzaman, Mohammad, Gude, Veera G., Buchanan, Randy, and Wang, Haifeng

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Quick and reliable measurement of wood chip moisture content is an everlasting problem for numerous forest-reliant industries such as biofuel, pulp and paper, and bio-refineries. Moisture content is a critical attribute of wood chips due to its direct relationship with the final product quality. Conventional techniques for determining moisture content, such as oven-drying, possess some drawbacks in terms of their time-consuming nature, potential sample damage, and lack of real-time feasibility. Furthermore, alternative techniques, including NIR spectroscopy, electrical capacitance, X-rays, and microwaves, have demonstrated potential; nevertheless, they are still constrained by issues related to portability, precision, and the expense of the required equipment. Hence, there is a need for a moisture content determination method that is instant, portable, non-destructive, inexpensive, and precise. This study explores the use of deep learning and machine vision to predict moisture content classes from RGB images of wood chips. A large-scale image dataset comprising 1,600 RGB images of wood chips has been collected and annotated with ground truth labels, utilizing the results of the oven-drying technique. Two high-performing neural networks, MoistNetLite and MoistNetMax, have been developed leveraging Neural Architecture Search (NAS) and hyperparameter optimization. The developed models are evaluated and compared with state-of-the-art deep learning models. Results demonstrate that MoistNetLite achieves 87% accuracy with minimal computational overhead, while MoistNetMax exhibits exceptional precision with a 91% accuracy in wood chip moisture content class prediction. With improved accuracy and faster prediction speed, our proposed MoistNet models hold great promise for the wood chip processing industry.

Published
2024
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7. Acoustic and Strength Characterization of Particleboard and Micronized Rubber Powder Composites

Author

Cole, John Thomas, Street, Jason Tyler, and Blake, Cody Daniel

Subjects
Powders -- Properties, Particleboard -- Properties -- Analysis, Rubber -- Forecasts and trends, Market trend/market analysis, Business, Forest products industry
Abstract

Waste rubber is abundant worldwide and threatens to be an environmental hazard for decades to come. This has led to an interest in the use of recycled rubber materials in value-added products. One such possible use is in the wood products industry. The research analyzed the strength and acoustic properties of composite pine particleboard that contained 10, 20, 30, and 40 percent micronized rubber powder, a dry powdered elastomeric crumb rubber, by weight. Methylene diphenyl diisocyanate was used as the bonding adhesive to produce five particleboard samples, including a control board. Test samples were cut from the five parent boards for use in strength and acoustic testing. Measured displacement values for a simply loaded and simply supported load scenario were used to calculate the modulus of rupture and apparent modulus of elasticity for each composite particleboard. Acoustic measurement by impedance tube provided comparisons of the sound absorption coefficient for frequencies ranging from 60 to 6,300 Hz. Results revealed that the addition of micronized rubber powder led to a decrease in modulus of elasticity and no significant difference in modulus of rupture values as compared with the control. Statistical analysis indicated a decrease in sound absorption in particleboard that contained micronized rubber powder when compared with the control., Concern related to the environmental impact of waste tire rubber has grown as landfills run out of space and the landscape of cities and rural areas alike are dotted with [...]

Published
2022
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11. The Effect of Multiple Knots in Close Proximity on Southern Pine Lumber Properties

Author

Barbosa, Marcela Cordeiro, Street, Jason, Owens, Frank C., and Shmulsky, Rubin

Subjects
Pines -- Environmental aspects, Lumber -- Mechanical properties, Regression analysis, Business, Forest products industry
Abstract

Lumber grade rules address well-spaced single-knot and combination-knot sizes. Information is lacking, however, with respect to multiple knots in close proximity. The term 'well-spaced' appears to lack quantitation. This research investigates the effect that knots in close proximity (not necessarily combination knots) have on the strength properties of southern yellow pine (SYP; Pinus spp.) lumber. This study attempts to use a statistical model to determine the modulus of rupture (MOR) for SYP having multiple knots in close proximity using variables including the knot diameter (KD), amount of clear wood (CW) present, knot area (KA), and modulus of elasticity (MOE) of the lumber. This study investigated specimens of 2 by 4-inch SYP dimensional lumber exhibiting multiple knots in close proximity. The basic density (D) was determined by dividing the entire specimen weight by its volume. Third-point bending tests were used in flatwise orientation to quantify the MOR and MOE. There were significant correlations among all parameters analyzed. Multiple regression analysis with one dependent variable, MOR, and three independent variables, KD, MOE, and D, resulted in a coefficient of determination value ([r.sup.2]) of 0.702. When using only the MOE to predict MOR, an [r.sup.2] value of 0.564 was found., As lumber is sawn from a log, the blade cuts through cross sections of ingrown branches, thereby leaving round, often dark-colored masses called knots. The impact of knots on the [...]

Published
2019
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32. Pilot-Plant Production of Gas-to-Liquid Synthetic Fuel Using Gasified Biomass over a Novel Biochar-Supported Catalyst

Author

Columbus Eugene, Hassan El Barbary, Yu Fei, Yan Qiangu, Wooten James, and Street Jason

Subjects
Waste management, 010405 organic chemistry, Biomedical Engineering, Soil Science, Biomass, Forestry, Producer gas, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Gas to liquids, Pilot plant, Synthetic fuel, Biochar, Environmental science, Woodchips, Agronomy and Crop Science, Food Science, Syngas
Abstract

Gasified biomass syngas has been successfully used to produce liquid hydrocarbons at pilot scale using a novel biochar-supported catalyst. Producer gas from a downdraft gasifier was made from woodchips and contained 53% N2, 17% CO, 14% H2, 13% CO2, and 2% CH4 after undergoing a rigorous scrubbing and refining process. The producer gas was successfully scrubbed so that the catalyst contaminants contained in the gas (e.g., NH4 and O2) were lower than 1 ppm. This study involved over 2000 h of biomass syngas trials at the pilot plant and achieved objectives to better understand and overcome challenges associated with reactor scale-up. A mass balance closure of ±5% was achieved. Producer gas, which flowed through the system only once (without a recycle loop), had a CO conversion of 59% or greater after being introduced to the novel biochar-supported catalyst. The pilot-scale catalyst bed had a much greater surface area for the gas to flow through than previously tested lab-scale reactors (approximately 15 times more surface area), which allowed channels to form and flow regimes to be more inconsistent than in the smaller reactor tubes. This accounted for the lower yield, so smaller tubes are suggested to improve efficiency and overall yield.

Published
2016

38. Surface Properties of Organic Kerogen in Continental and Marine Shale

Author

Tian, Shouceng, primary, Dong, Xiaoxiao, additional, Wang, Tianyu, additional, Zhang, Rui, additional, Zhang, Panpan, additional, Sheng, Mao, additional, Cheng, Shizhong, additional, Zhao, Hong, additional, Fei, Ling, additional, Street, Jason, additional, Chen, Yusheng, additional, and Xu, Quan, additional

Published
2018
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49. Photoluminescence mechanism and applications of Zn-doped carbon dots

Author

Xu, Quan, primary, Cai, Wei, additional, Zhang, Miaoran, additional, Su, Rigu, additional, Ye, Yingchun, additional, Li, Yeqing, additional, Zhang, Lipeng, additional, Guo, Yongjian, additional, Yu, Zhiqiang, additional, Li, Siyu, additional, Lin, Xun, additional, Chen, Yusheng, additional, Luo, Yan, additional, Street, Jason, additional, and Xu, Meng, additional

Published
2018
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