The Development of Empirical Correlations to Understand the Frictional Behavior of Aqueous Biomass Slurry Flows in Vertical Pipes

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Kashif Javed, Vinoj Kurian, Ajay Kumar
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Abstract

Highlights The frictional pressure drop correlation of agricultural residue-water slurry flows in vertical pipes is developed. Multiple linear regression with the backward elimination method was used in RStudio to obtain the optimal model. Some regression coefficients differ for different types of biomass feedstocks. The predicted pressure drops agree well with the experimental data within a 95% CI. Empirical models for the onset velocity of drag reduction of different particle sizes of biomass are proposed. Abstract. Large-scale biofuel production at levels equivalent to conventional oil refineries using long-distance pipeline hydro-transport of biomass can be a cleaner alternative to fossil fuels when it comes to economics and traffic congestion associated with the overland transportation of biomass. The transport of aqueous slurries of several saturated mass concentrations (5%-40%) and four particle sizes (from <3.2-19.2 mm) of two types of agricultural residue biomass (ARB) feedstock (corn stover and wheat straw) was studied through a vertical test section of a 29 m long, 50 mm diameter closed circuit pipeline facility, and frictional pressure drops were recorded at different flow rates (0.5-4.3 m s-1). A framework was developed in RStudio (4.0.5) to analyze the experimentally obtained frictional pressure drops of biomass slurries through a multiple linear regression approach using a backward elimination method and Akaike information criterion. An empirical model was proposed to predict slurry frictional pressure drop in terms of slurry velocity, slurry solid mass concentration, particle aspect ratio, and feedstock type. The model satisfactorily predicted the frictional pressure drops of both feedstocks of biomass-water slurry flows through pipes within a 95% confidence interval. The correlations introduced for onset velocities of drag reduction in terms of slurry solid mass concentrations seemed helpful to interpret the transition points of the corresponding slurries in vertical upward flows through pipes. The empirical correlation developed in this research could help select biomass slurry pumps and pipe dimensions when designing a typical long distance pipeline network for biofuel production at the commercial level. Keywords: Agricultural biomass wastes, Frictional loss prediction, Numerical model, Onset velocity correlation, Regression coefficients, Upward pipe flow.
发展经验关系式以了解生物质水浆在垂直管道中的摩擦行为
重点建立了垂直管道中农用渣水浆体流动的摩擦压降关系式。在RStudio中使用多元线性回归和反向消去法来获得最优模型。对于不同类型的生物质原料,一些回归系数有所不同。在95% CI范围内,预测的压降与实验数据吻合良好。提出了不同粒径生物质减阻起始速度的经验模型。摘要大规模的生物燃料生产水平相当于传统的炼油厂,使用长距离管道水力输送生物质,当涉及到经济和与陆上生物质运输相关的交通拥堵时,可以成为化石燃料的更清洁的替代品。通过长29 m、直径50 mm的闭路管道装置,研究了两种农业秸秆生物质(ARB)原料(玉米秸秆和小麦秸秆)不同饱和质量浓度(5% ~ 40%)和四种粒径(<3.2 ~ 19.2 mm)的水浆的输运情况,并记录了不同流速(0.5 ~ 4.3 m s-1)下的摩擦压降。在RStudio(4.0.5)中开发了一个框架,采用倒向消去法和Akaike信息准则,采用多元线性回归方法对实验得到的生物质浆料摩擦压降进行分析。建立了基于料浆速度、料浆固体质量浓度、颗粒长径比和原料类型的料浆摩擦压降预测经验模型。该模型在95%的置信区间内较好地预测了生物质-水浆体管道两种原料的摩擦压降。根据浆体固体质量浓度引入的降阻起始速度的相关性似乎有助于解释相应浆体在垂直向上流过管道时的过渡点。本研究中开发的经验相关性可以帮助在设计用于商业层面的生物燃料生产的典型长距离管网时选择生物质浆泵和管道尺寸。关键词:农业生物质废弃物,摩擦损失预测,数值模型,起始速度相关,回归系数,管道向上流动
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CiteScore
3.10
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