149 Evaluation of Hammermill Tip Speed, Air Assist, and Screen Hole Diameter on Ground Corn Characteristics

149 Evaluation of Hammermill Tip Speed, Air Assist, and Screen Hole Diameter on Ground Corn Characteristics

Abstract This study was performed to evaluate hammermill tip speed, assistive airflow and screen hole diameter on hammermill throughput and characteristics of ground corn. Corn was ground using two Andritz hammermills (Model: 4330–6, Andritz Feed & Biofuel, Muncy,PA) measuring 1-m in diameter ea...

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Veröffentlicht in:Journal of animal science 2021-05, Vol.99 (Supplement_1), p.134-135
Hauptverfasser: Braun, Michaela B, Dunmire, Kara M, Sodak, Michael, Shepherd, Jerry, Fisher, Randy, Coble, Kyle, Paulk, Chad B, Stark, Charles R
Format: Artikel
Sprache:eng
Schlagworte:
Air flow
Biofuels
Corn
Diameters
Evaluation
Factorial design
Flow velocity
Grinding
Hammers
Moisture effects
Particle size
Tip speed
Vegetables
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container_end_page 135
container_issue Supplement_1
container_start_page 134
container_title Journal of animal science
container_volume 99
creator Braun, Michaela B
Dunmire, Kara M
Sodak, Michael
Shepherd, Jerry
Fisher, Randy
Coble, Kyle
Paulk, Chad B
Stark, Charles R
description Abstract This study was performed to evaluate hammermill tip speed, assistive airflow and screen hole diameter on hammermill throughput and characteristics of ground corn. Corn was ground using two Andritz hammermills (Model: 4330–6, Andritz Feed & Biofuel, Muncy,PA) measuring 1-m in diameter each equipped with 72 hammers and 300 HP motors. Treatments were arranged in a 3 × 3 × 3 factorial design with 3 tip speeds (3,774, 4,975, and 6,176 m/min), 3 screen hole diameters (2.3, 3.9 and 6.3 mm), and 3 air flow rates (1,062, 1,416, and 1,770 fan RPM). Corn was ground on 3 separate days to create 3 replications and treatments were randomized within day. Samples were collected and analyzed for moisture, particle size, and flowability characteristics. Data were analyzed using the GLIMMIX procedure of SAS 9.4 with grinding run serving as the experimental unit and day serving as the block. There was a 3-way interaction for standard deviation (Sgw), (linear screen hole diameter × linear hammer tip speed × linear air flow, P = 0.029). There was a screen hole diameter × hammer tip speed interaction (P < 0.001) for geometric mean particle size dgw (P < 0.001) and composite flow index (CFI) (P < 0.001). When tip speed increased from 3,774 to 6,176 m/min the rate of decrease in dgw was greater as screen hole diameter increased from 2.3 to 6.3 mm resulting in a 67, 111, and 254 µm decrease in dgw for corn ground using the 2.3, 3.9, and 6.3 mm screen hole diameter, respectively. For CFI, increasing tip speed decreased the CFI of ground corn when ground using the 3.9 and 6.3 mm screen. However, when grinding corn using the 2.3 mm screen, there was no evidence of difference in CFI when increasing tip speed. In conclusion, the air flow rate did not influence dgw of corn but hammer tip speed and screen size were altered and achieved a range of dgw from 304 to 617 µm.
doi_str_mv 10.1093/jas/skab054.227
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Corn was ground using two Andritz hammermills (Model: 4330–6, Andritz Feed &amp; Biofuel, Muncy,PA) measuring 1-m in diameter each equipped with 72 hammers and 300 HP motors. Treatments were arranged in a 3 × 3 × 3 factorial design with 3 tip speeds (3,774, 4,975, and 6,176 m/min), 3 screen hole diameters (2.3, 3.9 and 6.3 mm), and 3 air flow rates (1,062, 1,416, and 1,770 fan RPM). Corn was ground on 3 separate days to create 3 replications and treatments were randomized within day. Samples were collected and analyzed for moisture, particle size, and flowability characteristics. Data were analyzed using the GLIMMIX procedure of SAS 9.4 with grinding run serving as the experimental unit and day serving as the block. There was a 3-way interaction for standard deviation (Sgw), (linear screen hole diameter × linear hammer tip speed × linear air flow, P = 0.029). There was a screen hole diameter × hammer tip speed interaction (P &lt; 0.001) for geometric mean particle size dgw (P &lt; 0.001) and composite flow index (CFI) (P &lt; 0.001). When tip speed increased from 3,774 to 6,176 m/min the rate of decrease in dgw was greater as screen hole diameter increased from 2.3 to 6.3 mm resulting in a 67, 111, and 254 µm decrease in dgw for corn ground using the 2.3, 3.9, and 6.3 mm screen hole diameter, respectively. For CFI, increasing tip speed decreased the CFI of ground corn when ground using the 3.9 and 6.3 mm screen. However, when grinding corn using the 2.3 mm screen, there was no evidence of difference in CFI when increasing tip speed. In conclusion, the air flow rate did not influence dgw of corn but hammer tip speed and screen size were altered and achieved a range of dgw from 304 to 617 µm.</description><identifier>ISSN: 0021-8812</identifier><identifier>EISSN: 1525-3163</identifier><identifier>DOI: 10.1093/jas/skab054.227</identifier><language>eng</language><publisher>US: Oxford University Press</publisher><subject>Air flow ; Biofuels ; Corn ; Diameters ; Evaluation ; Factorial design ; Flow velocity ; Grinding ; Hammers ; Moisture effects ; Particle size ; Tip speed ; Vegetables</subject><ispartof>Journal of animal science, 2021-05, Vol.99 (Supplement_1), p.134-135</ispartof><rights>The Author(s) 2021. Published by Oxford University Press on behalf of the American Society of Animal Science. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com. 2021</rights><rights>The Author(s) 2021. Published by Oxford University Press on behalf of the American Society of Animal Science. 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Corn was ground using two Andritz hammermills (Model: 4330–6, Andritz Feed &amp; Biofuel, Muncy,PA) measuring 1-m in diameter each equipped with 72 hammers and 300 HP motors. Treatments were arranged in a 3 × 3 × 3 factorial design with 3 tip speeds (3,774, 4,975, and 6,176 m/min), 3 screen hole diameters (2.3, 3.9 and 6.3 mm), and 3 air flow rates (1,062, 1,416, and 1,770 fan RPM). Corn was ground on 3 separate days to create 3 replications and treatments were randomized within day. Samples were collected and analyzed for moisture, particle size, and flowability characteristics. Data were analyzed using the GLIMMIX procedure of SAS 9.4 with grinding run serving as the experimental unit and day serving as the block. There was a 3-way interaction for standard deviation (Sgw), (linear screen hole diameter × linear hammer tip speed × linear air flow, P = 0.029). There was a screen hole diameter × hammer tip speed interaction (P &lt; 0.001) for geometric mean particle size dgw (P &lt; 0.001) and composite flow index (CFI) (P &lt; 0.001). When tip speed increased from 3,774 to 6,176 m/min the rate of decrease in dgw was greater as screen hole diameter increased from 2.3 to 6.3 mm resulting in a 67, 111, and 254 µm decrease in dgw for corn ground using the 2.3, 3.9, and 6.3 mm screen hole diameter, respectively. For CFI, increasing tip speed decreased the CFI of ground corn when ground using the 3.9 and 6.3 mm screen. However, when grinding corn using the 2.3 mm screen, there was no evidence of difference in CFI when increasing tip speed. In conclusion, the air flow rate did not influence dgw of corn but hammer tip speed and screen size were altered and achieved a range of dgw from 304 to 617 µm.</description><subject>Air flow</subject><subject>Biofuels</subject><subject>Corn</subject><subject>Diameters</subject><subject>Evaluation</subject><subject>Factorial design</subject><subject>Flow velocity</subject><subject>Grinding</subject><subject>Hammers</subject><subject>Moisture effects</subject><subject>Particle size</subject><subject>Tip speed</subject><subject>Vegetables</subject><issn>0021-8812</issn><issn>1525-3163</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNqFkEFPwyAYhonRxDk9eyXxZtYNKLRwXOp0Jks8bJ4JAxrZ2lKhNfHfi253T9_hfZ_3Sx4A7jGaYyTyxUHFRTyqPWJ0Tkh5ASaYEZbluMgvwQQhgjPOMbkGNzEeEMKECTYBR0wFXH2pZlSD8x30NVyrtrWhdU0Dd66H295aM4NLF-AyRheHGVSdgVsdrO3g2jcWPjnV2sEGmAZegh9TXPnQwepDBaVTkCin4y24qlUT7d35TsH782pXrbPN28trtdxkGlNaZkpTjJkqLEOEC8NrqrkVZI-MskjXhrCyNBxpXBrNlMaFEGVRU8EF5UYhlE_Bw2m3D_5ztHGQBz-GLr2UpGC8FDn_ay1OLR18jMHWsg-uVeFbYiR_jcpkVJ6NymQ0EY8nwo_9v-Ufgxp3nw</recordid><startdate>20210507</startdate><enddate>20210507</enddate><creator>Braun, Michaela B</creator><creator>Dunmire, Kara M</creator><creator>Sodak, Michael</creator><creator>Shepherd, Jerry</creator><creator>Fisher, Randy</creator><creator>Coble, Kyle</creator><creator>Paulk, Chad B</creator><creator>Stark, Charles R</creator><general>Oxford University Press</general><scope>AAYXX</scope><scope>CITATION</scope><scope>K9.</scope><scope>U9A</scope></search><sort><creationdate>20210507</creationdate><title>149 Evaluation of Hammermill Tip Speed, Air Assist, and Screen Hole Diameter on Ground Corn Characteristics</title><author>Braun, Michaela B ; Dunmire, Kara M ; Sodak, Michael ; Shepherd, Jerry ; Fisher, Randy ; Coble, Kyle ; Paulk, Chad B ; Stark, Charles R</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c1447-ac4115a6e50289d8f4c8e92b0dae0cfd2577d80c17dc5ac169976f498948da003</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2021</creationdate><topic>Air flow</topic><topic>Biofuels</topic><topic>Corn</topic><topic>Diameters</topic><topic>Evaluation</topic><topic>Factorial design</topic><topic>Flow velocity</topic><topic>Grinding</topic><topic>Hammers</topic><topic>Moisture effects</topic><topic>Particle size</topic><topic>Tip speed</topic><topic>Vegetables</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Braun, Michaela B</creatorcontrib><creatorcontrib>Dunmire, Kara M</creatorcontrib><creatorcontrib>Sodak, Michael</creatorcontrib><creatorcontrib>Shepherd, Jerry</creatorcontrib><creatorcontrib>Fisher, Randy</creatorcontrib><creatorcontrib>Coble, Kyle</creatorcontrib><creatorcontrib>Paulk, Chad B</creatorcontrib><creatorcontrib>Stark, Charles R</creatorcontrib><collection>CrossRef</collection><collection>ProQuest Health &amp; Medical Complete (Alumni)</collection><jtitle>Journal of animal science</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Braun, Michaela B</au><au>Dunmire, Kara M</au><au>Sodak, Michael</au><au>Shepherd, Jerry</au><au>Fisher, Randy</au><au>Coble, Kyle</au><au>Paulk, Chad B</au><au>Stark, Charles R</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>149 Evaluation of Hammermill Tip Speed, Air Assist, and Screen Hole Diameter on Ground Corn Characteristics</atitle><jtitle>Journal of animal science</jtitle><date>2021-05-07</date><risdate>2021</risdate><volume>99</volume><issue>Supplement_1</issue><spage>134</spage><epage>135</epage><pages>134-135</pages><issn>0021-8812</issn><eissn>1525-3163</eissn><abstract>Abstract This study was performed to evaluate hammermill tip speed, assistive airflow and screen hole diameter on hammermill throughput and characteristics of ground corn. Corn was ground using two Andritz hammermills (Model: 4330–6, Andritz Feed &amp; Biofuel, Muncy,PA) measuring 1-m in diameter each equipped with 72 hammers and 300 HP motors. Treatments were arranged in a 3 × 3 × 3 factorial design with 3 tip speeds (3,774, 4,975, and 6,176 m/min), 3 screen hole diameters (2.3, 3.9 and 6.3 mm), and 3 air flow rates (1,062, 1,416, and 1,770 fan RPM). Corn was ground on 3 separate days to create 3 replications and treatments were randomized within day. Samples were collected and analyzed for moisture, particle size, and flowability characteristics. Data were analyzed using the GLIMMIX procedure of SAS 9.4 with grinding run serving as the experimental unit and day serving as the block. There was a 3-way interaction for standard deviation (Sgw), (linear screen hole diameter × linear hammer tip speed × linear air flow, P = 0.029). There was a screen hole diameter × hammer tip speed interaction (P &lt; 0.001) for geometric mean particle size dgw (P &lt; 0.001) and composite flow index (CFI) (P &lt; 0.001). When tip speed increased from 3,774 to 6,176 m/min the rate of decrease in dgw was greater as screen hole diameter increased from 2.3 to 6.3 mm resulting in a 67, 111, and 254 µm decrease in dgw for corn ground using the 2.3, 3.9, and 6.3 mm screen hole diameter, respectively. For CFI, increasing tip speed decreased the CFI of ground corn when ground using the 3.9 and 6.3 mm screen. However, when grinding corn using the 2.3 mm screen, there was no evidence of difference in CFI when increasing tip speed. In conclusion, the air flow rate did not influence dgw of corn but hammer tip speed and screen size were altered and achieved a range of dgw from 304 to 617 µm.</abstract><cop>US</cop><pub>Oxford University Press</pub><doi>10.1093/jas/skab054.227</doi><tpages>2</tpages><oa>free_for_read</oa></addata></record>
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source Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals; PubMed Central
subjects Air flow
Biofuels
Corn
Diameters
Evaluation
Factorial design
Flow velocity
Grinding
Hammers
Moisture effects
Particle size
Tip speed
Vegetables
title 149 Evaluation of Hammermill Tip Speed, Air Assist, and Screen Hole Diameter on Ground Corn Characteristics
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