OPTIMIZING THE UNIT STRUCTURE OF THE DRAINAGE-TYPE CYCLONE SEPARATOR FOR SAND SAMPLE COLLECTION DOI Open Access

C. Zhang,

Muhammad Ariff Baharudin,

Tian Guo

et al.

INMATEH Agricultural Engineering, Journal Year: 2024, Volume and Issue: unknown, P. 615 - 624

Published: Dec. 19, 2024

This paper introduces a cyclone separation sand sampler with diversion flow to enhance soil wind erosion monitoring accuracy. Using CFD simulations and orthogonal testing, the optimal structural parameters for improved sampling efficiency were determined. A response model showed strong predictive capability P-value less than 0.0001 R² of 0.9482. Wind tunnel tests demonstrated that new achieved 91.44% efficiency, surpassing 90.81% traditional design. The research provides valuable data more accurate wind-sand monitoring, aiding in desertification prevention improving assessments grasslands.

Language: Английский

OPTIMIZING THE UNIT STRUCTURE OF THE DRAINAGE-TYPE CYCLONE SEPARATOR FOR SAND SAMPLE COLLECTION DOI Open Access

C. Zhang,

Muhammad Ariff Baharudin,

Tian Guo

et al.

INMATEH Agricultural Engineering, Journal Year: 2024, Volume and Issue: unknown, P. 615 - 624

Published: Dec. 19, 2024

This paper introduces a cyclone separation sand sampler with diversion flow to enhance soil wind erosion monitoring accuracy. Using CFD simulations and orthogonal testing, the optimal structural parameters for improved sampling efficiency were determined. A response model showed strong predictive capability P-value less than 0.0001 R² of 0.9482. Wind tunnel tests demonstrated that new achieved 91.44% efficiency, surpassing 90.81% traditional design. The research provides valuable data more accurate wind-sand monitoring, aiding in desertification prevention improving assessments grasslands.

Language: Английский

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