Microwave
homogenization
simulation
Based on computational simulation technology, we can optimize for a uniform microwave distribution by minimizing localized energy concentrations.
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Since multiple microwave sources with high-frequency waves are installed within the dryer, suboptimal distribution can lead to wave interference, which significantly degrades system efficiency.
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By visualizing electromagnetic distributions that are otherwise invisible to the naked eye, we can substantially enhance design intuition.
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Microwave simulation technology is an essential process that minimizes trial and error while simultaneously ensuring both the precision and economic viability of the equipment.
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Furthermore, simulation enables the optimal design of choke filters to prevent microwave leakage at the inlet and outlet of continuous dryers.
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Distribution in a non-optimal state
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Optimized multi-mode distribution simulation
Microwave enegy-
concentrating
technology
Devices such as high-temperature reactors, high-speed powder reactors used in battery principles, microwave boilers, and microwave plasma systems require energy to be concentrated within specific regions. To achieve this, an accurate grasp of theoretical microwave concepts and concentrated energy distribution simulations is essential.
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For high-temperature and high-speed reactors, the optimal conditions can be identified through simulations of the antenna technology supplying the reaction chamber, the chamber’s dimensions, and the specific target zone for energy concentration.
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If necessary, dielectric lenses can be positioned internally to modulate the size and focus of the concentrated region.
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In cases requiring narrow and rapid heating, such as microwave plasma or single-mode cavities, simulations are vital to attain high electric field intensity at precise locations.
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Centralized energy distribution simulation
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Single mode simulation
Microwave
Leakage
Shielding
Technology
We can implement microwave shielding structures for doors and the inlet/outlet of open-structure conveyor dryers, which are designed for continuous production, through advanced simulation.
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Since microwave leakage from equipment can cause adverse biological effects and interfere with the communication systems of surrounding devices, effective suppression is mandatory.
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Through simulation, we can visualize and implement shielding technologies that ensure leakage remains below the international safety standard of 5mW/cm2.
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Specifically, we can achieve an optimal filter design by simulating choke filters tailored to block microwave leakage at the inlet and outlet sections of continuous dryers.
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Abnormal Filter Choke
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Normal Filter choke