COTTON GINNERS HANDBOOK: Cotton Gin Pneumatic Conveying Systems

IF 0.7 Q4 AGRICULTURAL ENGINEERING Journal of cotton science Pub Date : 2019-01-01 DOI:10.56454/rlem8406
D. Whitelock, M. Buser, G. Holt, Robert G. Hardin IV, Kelley Green, J. Fábián, Duncan McCook
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Abstract

Cotton gins use air to move seed cotton, lint, cottonseed, and trash through conveying pipes. In gins, pneumatic conveying systems are the principal means of moving material from one processing stage to another throughout the entire ginning plant. Further, material drying or moisture restoration can be accomplished by heating or humidifying the conveying air. Pneumatic systems are a critical and fundamental component of cotton ginning. Cotton gins use large quantities of air for pneumatic conveying. It is common for a gin to use 4,248 m3 (150,000 ft3) or more of air per minute in its various material conveying systems. Because the density of dry standard air is approximately 1.2 kg/m3 (0.075 lb/ft3), a typical gin using 4,248 m3/min (150,000 ft3/min) of air moves 305,860 kg (675,000 lb) of air per hour. This mass of air per hour is approximately 1.5 times the total mass of material handled per hour. Typically, more than 60 to 65% of the total electrical power consumed by a cotton gin is attributed to moving material pneumatically. Properly taking air measurements, determining air flow requirements, sizing conveying pipes, sizing fans to generate required air flow rates, and accounting for specific machinery air requirements are essential to maximizing machine utilization, minimizing energy costs, and decreasing system downtime. This update of the Cotton Ginners Handbook provides current technical information on cotton gin pneumatic systems. It draws heavily on previous versions of the Cotton Ginners Handbook (Stedronsky 1964; McCaskill et al., 1977; Baker et al., 1994) and the knowledge and experience of current and past instructors of the Air Systems classes from the National Cotton Ginners’ Association Gin Schools.
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轧棉机手册:轧棉机气力输送系统
轧棉机利用空气将棉籽、棉绒、棉籽和垃圾通过输送管道输送。在轧机中,气力输送系统是将物料从一个加工阶段移动到另一个加工阶段的主要手段,贯穿整个轧机工厂。此外,可以通过加热或加湿输送空气来完成物料干燥或水分恢复。气动系统是轧棉的关键和基本组成部分。轧棉机使用大量的空气进行气力输送。在各种物料输送系统中,每分钟使用4,248立方米(150,000立方英尺)或更多的空气是很常见的。由于干燥标准空气的密度约为1.2 kg/m3 (0.075 lb/ft3),因此典型的轧锭机使用4,248 m3/min (150,000 ft3/min)的空气每小时移动305,860 kg (675,000 lb)的空气。每小时的空气质量大约是每小时处理的物料总质量的1.5倍。通常,轧棉机消耗的总电力的60%到65%以上是由于气动移动材料。适当地进行空气测量,确定空气流量要求,确定输送管道的尺寸,确定风扇的尺寸以产生所需的空气流量,并考虑特定的机械空气要求,对于最大限度地提高机器利用率,最大限度地降低能源成本和减少系统停机时间至关重要。轧棉机手册的更新提供了轧棉机气动系统的最新技术信息。它大量借鉴了以前版本的《轧棉工人手册》(Stedronsky 1964;McCaskill et al., 1977;Baker等人,1994年),以及来自全国轧棉机协会轧棉机学校的现任和过去的空气系统课程讲师的知识和经验。
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来源期刊
Journal of cotton science
Journal of cotton science AGRICULTURAL ENGINEERING-
CiteScore
0.90
自引率
20.00%
发文量
0
期刊介绍: The multidisciplinary, refereed journal contains articles that improve our understanding of cotton science. Publications may be compilations of original research, syntheses, reviews, or notes on original research or new techniques or equipment.
期刊最新文献
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