中学化学实验室气体环境的实测研究

对中学化学学生实验活动中产生的气体污染物进行测试,得到不同通风条件下化学实验室内部空气污染物的数据。结果表明,中学化学学生分组实验产生的主要气体污染物有苯、甲苯、甲醛、氨气等,实验过程中如不采取任何通风措施,实验室气体污染物的浓度短时间内会急剧升高,所以采取有效措施对实验室内部空气污染物进行消除是非常必要的。目前中学化学实验室配备的通风设备以桌面排风设备为主,相比于自然通风的环境,学生实验时开启桌面排风设备,能够有效降低实验产生的气体污染物浓度。     

Influence of ventilation on the reduction of the radon concentration in an underground research facility

The concentration of radon in an underground research facility (URF) was measured by setting up 12 sampling points in the URF and with 3 different measurement methods. All the methods were calibrated in the radon laboratory of the No. 6 Institute of Nuclear Industry. The accumulation of radon in the URF was observed before a ventilation system was applied. The reduction of radon concentration in the URF by 1-hour ventilation was also observed. Experimental result indicates that the concentration of radon in the URF increased from 15 to 50 Bq·m⁻³ in 5 days without ventilation, and decreased to less than 10 Bq·m⁻³ with 1-hour ventilation. Applying the average working time of 4 hours per day of the workers in the URF, the additional effective dose is 0.75 msv·y⁻¹ when 1 hour ventilation is applied before entering the URF and 13 mSv·y⁻¹ without ventilation. These figures strongly suggest that for the health of the workers, ventilation in such underground research facilities is needed.     

Ventilation modes and greenhouse structures affect 222Rn concentration in greenhouses in China

The influences of ventilation modes and greenhouse structures on radon concentrations in single- and multi-span plastic film greenhouses were studied to find effective engineering measures for controlling indoor radon by numerical simulation. The plants and mulch on ground, and sealing conditions had been considered to ensure the accuracy of simulation. Ventilation mode obviously influenced the indoor radon concentration and distribution, while the ventilation wind speed and structural form exerted no clear influence. Mechanical ventilation could reduce radon concentration to a greater extent than natural ventilation, and side-face ventilation was superior to end-face ventilation.

     

测试因素对一次性医用口罩通气阻力的影响

针对一次性医用口罩(DMMs)通气阻力测试结果不稳定情况,从测试设备稳定性、气体流量、样品不同位置、气流方向、预处理、测试时间方面展开了研究。结果表明,气体流量、样品不同位置和预处理对口罩的通气阻力有较大影响,测试时间和气流方向对口罩通气阻力无明显影响。研究结果对各生产厂商开发优异DMMs及生产过程质量控制有重要意义。     

Heat transfer coefficient distribution in inner surface of stator ventilation duct for large capacity air-cooled turbine generator

Journal of Thermal Analysis and Calorimetry - The stator ventilation duct is the main path for fluid flowing to cool the stator bar and the core. Considering the complexity of the ventilation...     

热脱附/气相色谱–质谱法检测新装修房内不同状态空气中TVOC比对

采用热脱附/气相色谱–质谱联用方法对两套新装修房(完工2个月和4个月)进行通风、封闭1 h、连续使用家用空调5 h 3种状态下总挥发性有机物TVOC进行检测。结果显示完工2个月的新装修房间封闭1 h TVOC含量比通风状态增加5倍,而连续开启家用空调5 h后室内TVOC含量比通风状态增加7.9倍;完工4个月的新装修房封闭房间1 h TVOC含量比通风状态增加0.5倍,而连续开启家用空调5 h后室内TVOC含量比通风状态增加2.5倍;污染程度不同的房间在使用空调后TVOC含量也有不同的变化。     

An analysis of regional ventilation in pulmonary sarcoidosis by inspired 133Xe washout test

Xenon-133 ventilation study were used to measure regional ventilation in seven patients with pulmonary sarcoidosis and in four normal subjects. For the purpose of analyzing the washout curves on the whole lungs, two ventilation indexes were calculated, which were TA/H and T1/2. TA/H is that the area under the curve divided by the difference in mean count rate during equilibrium and at 120 s after washout started. T1/2 value represents the time required to 50% of the mean count rate during equilibrium. The average time of TA/H on the whole lung was 13.5 +/- 1.1 s in normal subjects (n = 4), 13.0 +/- 4.3 s in stage I (bilateral hilar lymphadenopathy without lung involvement on chest X-ray) sarcoidosis (n = 3), 21.3 +/- 1.8 s in stages I, II (lung involvement) sarcoidosis (n = 4). The average time of T1/2 on the whole lung was 43.7 +/- 4.7 s in normal subjects, 42.3 +/- 16.0 s in stagel sarcoidosis, 72.5 +/- 28.6 s stages II, III sarcoidosis. The ventilation indexes on the regional lungs showed almost a similar tendency to that on the whole lung. The ventilation indexes in patients with stage II, III sarcoidosis were significantly longer than in normal subjects and in patients with stage I sarcoidosis. It was suggested that 133Xe washout test might detect regional ventilation abnormalities which were not recognized on chest X-ray in pulmonary sarcoidosis.     

新生儿重症监护室新生儿呼吸机相关性肺炎的临床分析

目的针对新生儿重症监护室中行以呼吸机机械通气的新生儿发生呼吸机相关性肺炎进行研究。方法选取广东东莞市人民医院于2012年1月—2016年1月期间收治的重症监护室行呼吸机机械通气新生儿730例做观察对象,对其发生呼吸机相关性肺炎的临床情况和致病菌分类做研究分析。结果 30例在重症监护室行呼吸机机械通气新生儿,其中有9例出现呼吸机相关性肺炎,发病率是1.23%;致病菌分为:肠道革兰阴性杆菌8例,占致病菌比例为88.89%;其他致病菌为1例,占致病菌比例为11.11%。9例患呼吸机相关性肺炎的患儿,痊愈出院有8例,1例转院治疗。结论对重症监护室的新生儿行呼吸机机械通气所发生的呼吸机相关性肺炎情况和致病菌分类进行研究,能够对降低其病发率起到有效作用,提前做好防控措施。     

Differential Response of Pentanal and Hexanal Exhalation to Supplemental Oxygen and Mechanical Ventilation in Rats

High inspired oxygen during mechanical ventilation may influence the exhalation of the previously proposed breath biomarkers pentanal and hexanal, and additionally induce systemic inflammation. We therefore investigated the effect of various concentrations of inspired oxygen on pentanal and hexanal exhalation and serum interleukin concentrations in 30 Sprague Dawley rats mechanically ventilated with 30, 60, or 93% inspired oxygen for 12 h. Pentanal exhalation did not differ as a function of inspired oxygen but increased by an average of 0.4 (95%CI: 0.3; 0.5) ppb per hour, with concentrations doubling from 3.8 (IQR: 2.8; 5.1) ppb at baseline to 7.3 (IQR: 5.0; 10.8) ppb after 12 h. Hexanal exhalation was slightly higher at 93% of inspired oxygen with an average difference of 0.09 (95%CI: 0.002; 0.172) ppb compared to 30%. Serum IL-6 did not differ by inspired oxygen, whereas IL-10 at 60% and 93% of inspired oxygen was greater than with 30%. Both interleukins increased over 12 h of mechanical ventilation at all oxygen concentrations. Mechanical ventilation at high inspired oxygen promotes pulmonary lipid peroxidation and systemic inflammation. However, the response of pentanal and hexanal exhalation varies, with pentanal increasing by mechanical ventilation, whereas hexanal increases by high inspired oxygen concentrations.     

A Study of the Influence of the Surrounding Gas on the Plasma Jet and Coating Quality During Plasma Spraying

Coating quality is affected by arc and plume instabilities during plasma spraying. In closed chamber plasma spraying, gradual drift is one of the intermediate instabilities, which is mainly due to the electrode erosion. This work focuses on the source of the gradual drift of the plasma jet and the influence on coating quality. The ambient state inside the chamber was controlled by a ventilation system and a vacuum system. The variation in the plasma jet was observed by a particle flux image device based on a CCD camera. The optical spectrum of the plasma plume was measured and analyzed through an optical spectrometer. The results indicated that the addition of hydrogen to plasma gas induced the change in the plasma jet length and width with changing rates depending on the chamber state and the ventilation power. With poor ventilation, the intensity of H_α emission was found to become gradually stronger while H_β and H_γ were found to become weaker. On closing the chamber and retaining enough ventilation power, it was observed that the ambient gas slowly turned red. Simultaneously, the coating weight and thickness were slightly decreased meanwhile the porosity ratio was obviously increased. The red ambient gas has been proved to be able to acidify the city water with pH value decreased from 7 to 1–3. Without hydrogen, the plasma jet was found to be stable without reddening and variation, but the plasma enthalpy was unfortunately low.     

Improved Mass Multiplication of <Emphasis Type="Italic">Rhodiola crenulata</Emphasis> Shoots Using Temporary Immersion Bioreactor with Forced Ventilation

A temporary immersion bioreactor system was found to be suitable for mass shoot proliferation of Rhodiola crenulata. The shoot multiplication ratio and hyperhydration rate reached 46.8 and 35.4%, respectively, at a temporary immersion cycle of 3-min immersion every 300 min. Forced ventilation was employed in the temporary immersion bioreactor culture in order to decrease the hyperhydration rate, improve shoot quality and enhance the multiplication ratio. The highest multiplication ratio of 55.7 was obtained under a temporary immersion cycle of 3-min immersion every 180 min with the forced ventilation at an air flow rate of 40 l/h, and the hyperhydration rate was reduced to 26.1%. Forced ventilation also improved the subsequent elongation and rooting rate of these proliferated shoots, and the shoot cultures from the temporary immersion bioreactor formed complete plantlets when subcultured onto a rooting medium containing 5 μmol/l indole-3-acetic acid.     

Influence of filter ventilation on the chemical composition of cigarette mainstream smoke

Total yields of cigarette smoke constituents are greatly influenced by smoking behaviour, the tobacco blend as well as a variety of cigarette design parameters. Thereby, filter ventilation, i.e. diluting the smoke by providing a zone of microscopic holes around the circumference of the filter is one method to reduce the yield of ‘tar’ and other smoke compounds. However, little is known how these design variations influence the combustion conditions, and therefore, the overall chemical pattern of the smoke. In this paper single photon ionization-time-of-flight mass spectrometry (SPI-TOFMS) is used to characterize and compare cigarettes on a puff-by-puff basis, which differ only in filter ventilation magnitude. The research cigarettes investigated were made from Virginia tobacco and featured filter ventilations of 0% (no ventilation), 35%, and 70%. The cigarettes were smoked under two different puffing regimes, one using the puffing parameters of the conventional International Organization for Standardization (ISO) smoking regime and a more intense smoking condition. Results show that every variation entails a change of the chemical pattern, whereby, in general, cigarettes with 0% filter ventilation as well as the intense smoking regime lead to a more complete combustion compared to the ISO smoking conditions and the high ventilated cigarettes. Changes in the overall patterns can also be observed during the smoking for individual puffs. Some substances dominate the first puff, some species are more pronounced in the middle puffs, whereas others are preferably formed in the last puffs. This demonstrates the high complexity of the occurring processes. Results might help to understand the formation and decomposition reactions taking place when a cigarette is smoked and offer scope for targeted reduction strategies for specific toxicants or groups of toxicants in the smoke.     

Catalytic Purification of Gases to Remove Vinyl Chloride

The catalytic purification on spinel-like catalysts containing no noble metals of ventilation exhaust gases formed in manufacture of PVC film was studied in the thermal and sorption modes.     

Immersogeometric thermal analysis of flows inside buildings with reconfigurable components

Journal of Thermal Analysis and Calorimetry - The design and operation of energy sustainable buildings rely on the comprehensive understanding of how ventilation flows are influenced by different...     

Optimization of window type and vent parameters on single-sided natural ventilation buildings

Journal of Thermal Analysis and Calorimetry - The residential building sector is one of the major areas to reduce energy demand. In this study, the single-sided top vent-based natural ventilation...     

Integral fire tests with oil and cable in a nuclear power plant

Experiments with oil pool and cable fires were performed in a former Nuclear Power Plant during the last years. The fire room was a closed subcompartment equipped with ventilation ducts, fire dampers, extinguishing lines and connected by a floor to the plant containment to study fires in a real environment under conditions typical for Nuclear Power Plants. Unsolved issues such as behavior of fire damping components and filters; production of soot; fire fighters entrance to a burning room were evaluated as well as ventilation needs of involved rescue areas. The fire behavior was calculated by different types of fire codes.     

心脏及膈肌活动度超声联合血清NT-proBNP对有创机械通气患者撤机结局的预测价值

为探究超声心动图(TTE)、膈肌活动度(DE)超声及血清N-末端脑钠肽前体(NT-proB-NP)检测三者联合对有创机械通气患者撤机结局的预测价值,本研究选取行有创机械通气的呼吸衰竭患者85例,分别行TTE超声检查、DE超声及自主呼吸实验(spontaneous breathing trial,SBT),观察患者撤机结...     

Superheavy nuclei and hypernuclei: extending the limits of the nuclear chart

In this study, a tubular radon removal device and a movable one were prepared and investigated. The tubular radon removal device in an air conditioning return air system reduced the radon progeny by more than 84%. The radon progeny concentration reached equilibrium after 4 h when it was used only for a ventilation at the rate of 10 h⁻¹. Radon progeny removal efficiency was above 95% for the movable radon removal device, when the ventilation rate was 17 h⁻¹. The results showed that the radon removal devices can effectively remove the radon progeny in the air.

     

凯氏定氮装置的改进

针对传统凯氏定氮装置存在的问题,设计了一种新型的定氮装置,尤其对氮气球、通气开关、球型冷凝管进行了重新设计.实践证明,改进的凯氏定氮装置完全可以满足常量定氮分析.     

Simultaneous on-line size and chemical analysis of gas phase and particulate phase of cigarette mainstream smoke

This paper describes the combined set-up of on-line chemical analysis of gas phase by single-photon ionisation/resonance enhanced multiphoton ionisation–time-of-flight mass spectrometry (SPI/REMPI-TOFMS) and on-line particle size analysis by differential electrical mobility particle spectrometry (DMS 500) for the investigation of fresh cigarette mainstream smoke. SPI is well suited for the investigation of a great variety of organic species, whereas REMPI is highly sensitive for aromatic compounds. Gas phase measurements of filtered and unfiltered smoke are possible with the SPI/REMPI-TOFMS in order to determine the influence of the presence of particles on the chemical composition of the gas phase. Initial results are shown for the characterisation and comparison of three pure Virginia tobacco research cigarettes having filter ventilations of 0%, i.e. no filter ventilation, 35% and 70% ventilation. The three cigarette types are smoked under two different smoking regimes, a standard regime using puff parameters equivalent to the conventional International Standard Organisation regime and a more intense smoking regime. For the gas phase, qualitative puff-by-puff resolved yields of three selected compounds (acetaldehyde, phenol and styrene) are shown and compared. For particulate matter, particle number, count median diameter and total surface area are illustrated on a puff-by-puff basis. Yields of the chemicals analysed, puff number and surface area are in good agreement with the intensity of the smoking regime and the dilution of smoke by filter ventilation. However, gaseous compounds are influenced differently, depending whether an absolute particle filter is present or not, i.e. they can be totally removed (phenol), partially removed (styrene) or not affected (acetaldehyde). For particle analysis, the count median diameter decreases from puff to puff and is strongly dependent on the smoking regime and ventilation rate. Thereby, 0% ventilated cigarettes smoked under the intense regime result in the smallest count median diameters of ca. 180 nm, whereas 70% ventilated cigarettes smoked with a standard regime lead to the largest values of up to 280 nm. As particle diameter increases, particle number decreases as a consequence of increasing time for particle coagulation.