Visual Assessment of Factors Affecting Reverse Pressure Gradients in Liners Using a Simulated Milking Device

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Masafumi Enokidani, Yoji Inui, Hitoshi Kondo, K. Kawai, Y. Shinozuka, Kento Imao
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Abstract

Highlights In a simulated milking device, liner internal diameter, pulsation setting, and vent location all affect backflow. Junction point internal diameter affects backflow more than other factors. Vent location has no effect on backflow if the liner internal diameter is large. Backflow is strong with simultaneous pulsation, regardless of other factors. Abstract. The backflow of milk resulting from reverse pressure gradients in liners can cause mastitis. In this study, we hypothesized that liner internal diameter, vent location, and pulsation setting can induce backflow. We therefore attempted to clarify the mechanism of backflow using a flow simulated device. We visually analyzed the effects on backflow of the liner junction point (JP) (i.e., the border from the liner to the short milk tube), the liner inlet point (IP) (i.e., a distance of 63 mm from the end of the short milk tube), vent location, and pulsation setting, using high-speed video recordings of water flow in clear silicone liners at seven flow rates (1.0, 1.5, 2.0, 2.5, 3.0, 3.5, and 4.0 kg min-1/quarter). The actual flow rate was approximately half of the flow meter set value due to the effect of the pulsation closing phase (C+D phase) on quarter level. The results showed that the degree of backflow in liners increased considerably with an increase in flow rate and a decrease in liner internal diameter. The degree of backflow was affected considerably more by JP internal diameter than by IP internal diameter, pulsation setting, or vent location. The degree of backflow was not affected significantly by short milk tube vents and mouthpiece vents when JP internal diameter was larger. However, the degree of backflow was very strong when simultaneous pulsation was used, even at low flow rates. The findings showed that the JP internal diameter should be >13.0 mm, IP internal diameter should be >11.0 mm, the pulsation rate should be 60 pulses/min, and the pulsation ratio should be 60:40 when the alternative pulsation setting is used. This information might be useful for preventing intramammary gland infection. Keywords: Liner internal diameter, Pulsation setting, Reverse pressure gradients, Simulated milking device, Vent location.
利用模拟挤奶装置对衬垫反压梯度影响因素的目视评估
在模拟挤奶装置中,衬管内径、脉动设置和排气口位置都会影响回流。结合点内径对回流的影响大于其他因素。如果衬管内径较大,排气口位置对回流没有影响。与其他因素无关,当脉动同时发生时,回流是强烈的。摘要由衬垫反向压力梯度引起的牛奶回流可引起乳腺炎。在这项研究中,我们假设衬管内径、排气口位置和脉动设置会导致回流。因此,我们试图利用流动模拟装置澄清回流的机制。我们使用高速视频记录透明硅胶衬垫中7种流速(1.0、1.5、2.0、2.5、3.0、3.5和4.0 kg min-1/quarter)的水流,直观地分析了衬垫连接点(JP)(即衬垫与短奶管之间的边界)、衬垫入口点(IP)(即距短奶管末端63 mm的距离)、排气口位置和脉动设置对回流的影响。由于四分之一电平的脉动关闭相位(C+D相位)的影响,实际流量约为流量计设定值的一半。结果表明:随着流量的增大和管材内径的减小,管材内回流程度显著增大;JP内径比IP内径、脉动设置或排气口位置对回流程度的影响更大。当JP内径较大时,短奶管通风口和吸口通风口对回流程度影响不显著。然而,当同时使用脉动时,回流程度非常强,即使在低流量下也是如此。结果表明:采用备选脉动设置时,JP内径宜>13.0 mm, IP内径宜>11.0 mm,脉动速率宜为60次/min,脉动比宜为60:40。这一信息可能有助于预防乳腺内感染。关键词:内径,脉动设置,反压力梯度,模拟挤奶装置,排气口定位
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CiteScore
3.10
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0.00%
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