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This study is mainly aimed at the controversy of the pollution source content caused by air pollution, and the rise of the high-temperature test furnace manufacturing to carry out the analysis of heavy metal content in fly ash and bottom ash, to scientifically test the benchmark data of the standard substances recognized by international inspection agencies, Eliminate conflicts with sources of pollution. It is mainly based on the radiation melting of the molybdenum-doped molybdenum heating conductor, the flux (Flux) is combined and melted to obtain the fly ash obtained from the pollution source, and the white gold crucible is loaded for high temperature shaking and uniform melting and temperature holding time. The melting procedure, the resulting melt sample, must be clear and transparent, no cracks, no incomplete burning, and at least three glass samples are prepared under the above operating conditions. The ASTM D 4326 X-ray fluorescence emission spectrometer (XRF) was used to detect the maximum difference between the detection results of CaO, Si2O, Fe2O3, MgO, Al2O3, K2O and TiO2 in several glass samples (data maximum and minimum). The difference must be in accordance with the requirements of the world-recognized benchmark data. The design, shaking, temperature control, timing, and sensing of the molten test furnace are discussed.
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