Design and experimental research on disc-type seeding device for single-bud sugarcane seeds

Liu, Xinpeng; Niu, Zhaojun; Li, Ming Fu; Hou, Meng; Wei, Lijiao; Zhang, Yuan; Huang, Liying

doi:10.25165/j.ijabe.20231602.6973

Cited by 2 publications

(2 citation statements)

References 13 publications

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“…Response surface experiments are pivotal in assessing factors’ influence on performance ( Gao et al., 2021 ; Liu et al., 2023 ; Kadam and Pawade, 2024 ). The experiments encompassed three factors at five levels.…”

Section: Methodsmentioning

confidence: 99%

Development of a new environmentally friendly and efficient centrifugal variable diameter metering device

Zhang,

Zhao,

Gao

et al. 2024

Front. Plant Sci.

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IntroductionThe design of the maize metering device involves centrifugal variable diameter pneumatic and cleaning mechanisms, aiming to enhance the performance and power efficiency of pneumatic maize metering devices. Leveraging the impact of changes in centrifugal diameter and the guidance and positioning of airflow, we optimize the hole insert, seeding plate, seed limit board, and integrated front shell. This optimization facilitates the adjustment of both the quantity and posture of seed filling. As a result, seeds can form a uniform flow within the annular cavity, reducing the wind pressure necessary for regular operation and decreasing power consumption.MethodsA quadratic regression orthogonal rotation combination experiment is conducted using a self-made experiment bench, considering ground speed, wind pressure, and seeding rate as the experiment factors. Furthermore, a comparative experiment involving a novel centrifugal variable-diameter type metering device.ResultsThe results indicate optimal seeding performance when the ground speed is 13.2 km/h, the wind pressure is 1.2 kPa, and the feeding rate is 25 seeds/s. Under these conditions, the quality of feed index reaches 95.20%, the multi-index is 3.87%, and the miss index is 0.93%. Findings reveal that the developed seed metering device achieved a quality of feed index exceeding 93.00% across varying speeds of 12~18 km/h, aligning with the production requirements. Moreover, the actual power consumption of Type B and C is about 85.00% and 98.00% lower than Type A, standing at only 32.90 W at 18 km/h. The COP of Type C is about 86 times and 12 times that of Type A and B, respectively, meeting the demands for efficient production of maize seed metering devices.DiscussionIn comparison to traditional design and structural parameter optimization methods for maize seed metering device, this study is helpful to the sustainable development of maize industry and reduce environmental pollution.

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Section: Methodsmentioning

confidence: 99%

Development of a new environmentally friendly and efficient centrifugal variable diameter metering device

Zhang,

Zhao,

Gao

et al. 2024

Front. Plant Sci.

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“…In sugarcane fields, the efficient and cost-effective utilization of machinery relies on matching crop varieties and agronomic practices (Liu et al, 2023). Existing Chinese sugarcane varieties were mostly selected from hybrid combinations several years or even over a decade ago.…”

Section: Requirements For Sugarcane Varieties In Mechanized Productionmentioning

confidence: 99%

Developing new sugarcane varieties suitable for mechanized production in China: principles, strategies and prospects

Que,

Wu,

Zhang

et al. 2024

Front. Plant Sci.

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The sugar industry, which relates to people’s livelihood, is strategic and fundamental in the development of agricultural economy. In China, sugar derived from sugarcane accounts for approximately 85% of total sugar production. Mechanization is the “flower” of sugarcane industry. As the saying goes “when there are blooming flowers, there will be sweet honey.” However, due to limitations in land resources, technology, equipment, organization, and management, mechanization throughout the sugarcane production process has not yet brought about the economic benefits that a mechanized system should provide and has not reached an ideal yield through the integration of agricultural machinery and agronomic practice. This paper briefly describes how to initiate the mechanization of Chinese sugarcane production to promote the sound, healthy, and rapid development of the sugarcane industry, and how to ultimately achieve the transformation of sugarcane breeding in China and the modernization of the sugarcane industry from three perspectives, namely, requirements of mechanized production for sugarcane varieties, breeding strategies for selecting new sugarcane varieties suitable for mechanized production, and screening for sugarcane varieties that are suitable for mechanization and diversification in variety distribution or arrangement in China. We also highlight the current challenges surrounding this topic and look forward to its bright prospects.

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Design and experimental research on disc-type seeding device for single-bud sugarcane seeds

Cited by 2 publications

References 13 publications

Development of a new environmentally friendly and efficient centrifugal variable diameter metering device

Development of a new environmentally friendly and efficient centrifugal variable diameter metering device

Developing new sugarcane varieties suitable for mechanized production in China: principles, strategies and prospects

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