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ARS Home » Plains Area » Lubbock, Texas » Cropping Systems Research Laboratory » Cotton Production and Processing Research » Research » Publications at this Location » Publication #105250

Title: COMPARISON OF MASS FLOW RATE SENSORS FOR GINNING STRIPPER HARVESTED COTTON

Author
item Barker, Gary
item Pelletier, Mathew
item Laird, Joseph - Weldon
item Brashears, Alan

Submitted to: Applied Engineering in Agriculture
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 6/6/2002
Publication Date: 9/1/2000
Citation: BARKER, G.L., PELLETIER, M.G., LAIRD, J.W., BRASHEARS, A.D. COMPARISON OF MASS FLOW RATE SENSORS FOR GINNING STRIPPER HARVESTED COTTON. APPLIED ENGINEERING IN AGRICULTURE. 2000. V. 16(5). P. 477-481.

Interpretive Summary: The use of process control can reduce labor costs and improve product quality when applied correctly to applicable processes in industry. Process control requires accurate knowledge of all input parameters. In the ginning industry, one of the major unknowns, as cotton moves through the system, is the instantaneous measure of the mass of cotton, seed, lint, and trash. Most of the conveying in current cotton gins is done by pneumatic means, which makes the measurement of mass flow rates by conventional means, such as scales, very difficult. The resilient nature of the cotton also eliminates the types of devices used for grain. Thus, we began a project to evaluate the applicability of belt scales, light bar arrays and a microwave based sensor to measure the mass flow of cotton in pneumatic ducts. The microwave based sensor was unsuitable for measuring mass flow but did provide an excellent indication of the presence of flow in the pneumatic pipes. The signal from the light bar array correlated very well with the mass flow rate of the cotton through the pipes and requires only minor modifications in the conveyance system. All devices need estimates of moisture and trash content to improve accuracy. Mechanical problems were encountered with the scales which made it impossible to vary rate. However, the belt scales correlated very well with the signal from the truck scales.

Technical Abstract: Real time mass flow sensors are needed at various locations in the cotton gin if process control is to reach its full potential. Several devices, including belt scales, light array bars and a microwave flow meter were evaluated for their suitability in detecting the flow of cotton and the mass flow rates of stripper harvested cotton. The readout from the truck scales was used to provide the lot weight for the study. Although equipmen problems prevented us from testing the accuracy of the scale units under varying rate conditions, these units should provide the most accurate method of measuring mass flow. The mechanical nature of the scale units, however, limit their usefulness in commercial gins which use primarily pneumatic systems to convey the cotton. The microwave based sensor was unsuitable for measuring mass flow but did provide an excellent indication of the presence of flow in the pneumatic pipes. The signal from the light bar array correlated very well with the mass flow rate of the cotton through the pipes and requires only minor modifications in the conveyance system. All devices need estimates of moisture and trash content to improve accuracy.