Methodology of integrated evaluation of installation efficiency for collecting fluff from rabbit skin

Increasing the profitability of rabbit breeding is possible due to the introduction of decontaminated fluff using microwave installations with low-power air-cooled magnetrons and unconventional resonators that provide electromagnetic safety and reduce operating costs. The development of a methodolog...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2021-09, Vol.857 (1), p.12003
Main Authors: Shamin, E, Mikhailova, O, Novikova, G, Prosviryakova, M, Semenov, D
Format: Article
Language:English
Subjects:
Block diagrams
Continuous flow
Decontamination
Design optimization
Design parameters
Dielectric loss
Economics
Efficiency
Electric field strength
Energy costs
Flux density
Installation
Magnetrons
Mathematical models
Methodology
Operating costs
Power consumption
Profitability
Radiation
Resonators
Safety
Structural design
Structural engineering
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Summary:Increasing the profitability of rabbit breeding is possible due to the introduction of decontaminated fluff using microwave installations with low-power air-cooled magnetrons and unconventional resonators that provide electromagnetic safety and reduce operating costs. The development of a methodology for a comprehensive assessment of the effectiveness of continuous microwave installations for collecting fluff from rabbit skins is a novelty. The method of developing and creating microwave installations is developed on the basis of step-by-step integration optimization of the design parameters of resonators, analysis of mathematical models and a block diagram of the installation operation model. The methodology is reduced to determining the efficiency of the generator when using a reasonable structural design of the resonator, which provides a continuous-flow mode of exposure in compliance with electromagnetic safety standards. Effective parameters of the created installation: own Q-factor of 8280; productivity of 19.2 kg/h; power consumption of 5.55 kW; the radiation flux density is 10-20 W/cm2; specific energy costs are 0.313 kWh/kg; the electric field strength is 0.9-1.0 kV/cm. The efficiency of ultrahigh-frequency heating reaches 0.8 when loading rabbit skins soaked in ice-pickle, with a dielectric loss factor at a frequency of 2450 MHz equal to 13.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/857/1/012003