Gas chromatography-mass spectrometry (GC-MS) and gas chromatography-olfactometry (GC-O) were used to determine the aromatic composition and aroma active compounds of fruit juice and peel oil of Jinchen sweet orange fruit. Totals of 49 and 32 compounds were identified in fruit juice and peel oil, respectively. GC-O was performed to study the aromatic profile of Jinchen fruit juice and peel oil. A total of 41 components appeared to contribute to the aroma of fruit juice and peel oil. Twelve components were the odorants perceived in both samples. The aromatic compositions of fruit juice were more complex than that of peel oil. Ethyl butanoate, β-myrcene, octanal, linalool, α-pinene, and decanal were found to be responsible for the aromatic notes in fruit juice and peel oil. Nineteen components have been perceived only in the juice and ten compounds were described as aromatic components of only the peel oil by the panelists. These differences lead to the different overall aroma between fruit juice and peel oil.
The typical 60Co round irradiation room of stacking has been taken as a research subject. Ignition temperatures of common radiation cargo were measured through the experiments, minimum ignition temperature is 210 °C. In order to discuss the temperature variation and temperature field under stuck radioactive sources, the fire scenario was presented and simulated by FDS. The results show that temperatures rise rapidly when stuck radioactive source broke out within an hour. As the growth of the time, temperatures in irradiation room are rising, but the rising rate is slowing. The temperature field in the irradiation room tends to be the same after two hours. The stuck radioactive source occurred after 7.2 days later, local temperatures can reach 210 °C, and radiation cargo may be ignited.
Ignition temperatures of common radiation cargo in irradiation room were measured through the experiment, minimum ignition temperature is 210 °C. In order to discuss the temperature variation under stuck radioactive sources, two fire scenarios were presented and simulated by FDS. The results show that temperatures rise rapidly when stuck radioactive sources broke out within an hour. As the growth of the time, temperatures in irradiation room are rising, but the rising rate is slowing. In fire scenario A and B, the incidents of stuck radioactive sources occur in 9 days, 4 days later, local temperatures can reach 210 °C, and radiation cargo may be ignited. The results of the research can provide reference for fire risk judgment and assessment in irradiation room.
Single event upset vulnerabilities of static random access memory (SRAM) cells on the micron scale and deep sub-micron scale are characterized and analyzed under ionizing irradiation. Meanwhile, by means of three-dimentional simulation, electrical responses of 6-T SRAM cell with feature size 0.18 μm are calculated when ions are injected into the different central single transistors under the irradiotion with different deposited doses. The simulation results are consistent with the analysis conclusion: the single event upset vulnerability would increase only when the SRAM cell stores the same state as the one stored in the irradiation period.
Fire simulation software (FDS) was employed to simulate the fire smoke movement of urban traffic link tunnel (UTLT) under the semi-transverse ventilation. Numerical simulation and theoretical analysis were used to analyze the fire smoke movement in three fire scenarios. The analytical results show that: semi-transverse ventilation can effectively control the spread of fire smoke. When the exhaust air rate is certain, the exhaust port interval of 20 m and 50 m has little effect on function of smoke control. The research results provide references for the design of smoke control measures in UTLT.
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