不同外环境温度对电子生物温控保温箱保温效果的影响

目的在不同外环境温度下电子生物温控保温箱内温度变化的变化规律。方法不同的电子生物温控保温箱中分别放置经20—24℃环境预温的生理盐水袋,保持插电状态。同时,放入经过计量部门校准合格的温度记录仪。电子生物温控保温箱分别在温度为≥43℃、2—8℃和20—24℃的外环境中放置,并读取温度记录仪的数值。方法不同的电子生物温控保温箱中分别放置经20—24℃环境预温的生理盐水袋,保持插电状态。同时,放入经过计量部门校准合格的温度记录仪。电子生物温控保温箱分别在温度为≥43℃、2—8℃和20—24℃的外环境中放置,并读取温度记录仪的数值。结果在6 h内,LX-18X和LX-18Z两种型号的电子生物温控保温箱在极端温度下的温度变化趋势一致,且均能满足冷链运输的要求。当常温时,外环境温度对电子生物温控保温箱的保温效果影响最小,箱内温度能平稳维持,波动较小;当遭遇高温或低温的极端温度时,电子生物温控保温箱的保温效果在可控范围内受到一定的影响,影响程度随时间的累计而变大。结论在极端环境温度时,电子生物温控保温箱能达到血液冷链运输的要求。

外环境温度对污泥堆肥过程中抗生素抗性基因的影响

为研究外环境温度对污泥堆肥过程中抗生素抗性基因的影响,选取市政污水处理厂脱水污泥、花生壳和堆肥返混料作为堆肥材料,采用室内静态堆肥加翻堆方式,通过测定30,50,55℃下堆肥过程中堆体理化性质和抗性基因(tetA、tetQ、sul2、sul3)及一类整合子丰度,分析3种外环境温度对污泥堆肥过程中抗生素抗性基因变化的影响。结果表明:50,55℃外环境温度堆肥条件可有效降解污泥堆肥过程中tetA、tetQ、sul2、sul3抗性基因丰度,在堆肥结束时总ARGs降解率达到66%~83%,而30℃外环境堆肥结束时,总ARGs降解率为30%左右。移动遗传元件IntI1的丰度变化与ARGs的丰度变化趋势相似,堆肥结束时50℃和55℃的外环境温度对堆体中IntI1的降解率达到92%以上,高于30℃条件71.9%的降解率,其原因可能是适当高的外环境温度会抑制堆体中部分微生物的生长代谢,减少了IntI1的传播,进而影响ARGs的传播。30℃外环境温度堆肥条件下,堆体在第36天达到腐熟,发芽指数为59.80%;而50℃和55℃堆肥条件下,在第28天即可达到腐熟,发芽指数达到60%,腐熟速度明显高于30℃条件。研究表明,50℃和55℃的外环境温度堆肥条件和30℃相比可以缩短腐熟所需时间,且对tetA、tetQ、sul2、sul3抗性基因及IntI1丰度有很好的降解效果。因此,堆肥时适当提高外环境温度对污泥发酵和其中ARGs有一定的影响,理论上具有一定的可行性。

不同运输条件对血小板体外质量的影响

目的研究不同运输条件对血小板功能的影响。方法通过改变运输方式(22±2℃振荡和22±2℃不振荡)和外环境温度(-10℃、15～30℃和37℃)2个变量,比较0～5 h不同时间段Plt、pH值和乳酸含量。结果在室温条件下(15～30℃)无论用22±2℃振荡还是不振荡方式运输,在0～5 h其Plt、pH值均无显著性差异;用22±2℃振荡运输在0 h～5 h其乳酸值无显著性差异;而用22±2℃不振荡运输,在5 h时其乳酸值出现显著性增加。在室温(15～30℃)和37℃条件下,运输箱在0～5 h其箱内温度始终在20～24℃,而在-10℃条件下,运输箱在5 h时其箱内温度将低于20℃。结论在短时间内(≤3 h)运输血小板,无论用22±2℃振荡或22±2℃不振荡方式,单采血小板功能无显著性差异。当外环境的温度超出车载式血小板运输箱的工作温度范围时,会影响血小板运输箱内温度,因此应首先将车内的温度尽可能地调整到设备的工作温度范围内,以确保血小板运输箱处于正常的工作状态。

探讨线栓法建立大鼠局灶性脑缺血模型的影响因素

目的:为了提高线栓法制备大鼠局灶性脑缺血模型成功率,探讨大鼠局灶性脑缺血模型的有效方法及影响因素。方法:为观察高温外环境对造模的影响,将外环境温度控制在(25±1)℃和在夏季未控制外环境温度(30℃以上)分为温度控制组(n=15)和非温度控制组(n=15),其他制作过程一致;为观察栓线从颈总动脉和颈外动脉插入对造模的影响分为颈总动脉插入组(n=15)和颈外动脉插入组(n=15),其他制作过程一致;为观察术中术后2h内老鼠苏醒活跃状态对造模的影响分为麻醉状态组(n=15)和苏醒活跃状态组(n=15),其他制作过程一致。从造模24h后观察Zea-Longa评分在1～3分的大鼠且7d内观察大鼠未死亡视为造模成功。结果:在外环境温度控制在(25±1)℃组与夏季未控制外环境温度(30℃以上)比较,差异无统计学意义(P=0. 107> 0. 05);线栓从颈总动脉插入比从颈外动脉插入存活率高,具有统计学意义(P=0. 025 <0. 05);术后2h内大鼠处于苏醒活跃状态组死亡率高,与麻醉未清醒状态组比较差异具有统计学意义(P=0. 021 <0. 05)。结论:直接分离出颈总动脉(CCA)并从颈总动脉插入具有易操作、创伤性小、操作时间快、进线栓快、进线栓顺利以及模型稳定等优点,能降低造模的死亡数据;术中术后2h内大鼠处于苏醒活跃状态会对模型大鼠造成较大的刺激,造成死亡率增加。

Influencing factors of infrared surveying in roadway

The main factors that affect infrared surveying in roadway include that property of rock, electromechanical equipments running, environmental temperature, hydrogeology and support material etc. This paper sums up the expression features of these disturbing factor through theoretical analysis and actual measurement contrasts and considers that some tunnel section does not suit to go on infrared survey, for instance, soft rock meets water to expanse, and surround rock has obviously pouring water. The basic methods had made evading disturbing of electromechanical equipments, environmental temperature and protect material etc to become possible. It is helpful that offers infrared surveying technical service for production safety better in roadway.

Retrieval of urban land surface component temperature using multi-source remote-sensing data

The components of urban surface cover are diversified,and component temperature has greater physical significance and application values in the studies on urban thermal environment.Although the multi-angle retrieval algorithm of component temperature has been matured gradually,its application in the studies on urban thermal environment is restricted due to the difficulty in acquiring urban-scale multi-angle thermal infrared data.Therefore,based on the existing multi-source multi-band remote sensing data,access to appropriate urban-scale component temperature is an urgent issue to be solved in current studies on urban thermal infrared remote sensing.Then,a retrieval algorithm of urban component temperature by multi-source multi-band remote sensing data on the basis of MODIS and Landsat TM images was proposed with expectations achieved in this work,which was finally validated by the experiment on urban images of Changsha,China.The results show that：1） Mean temperatures of impervious surface components and vegetation components are the maximum and minimum,respectively,which are in accordance with the distribution laws of actual surface temperature; 2） High-accuracy retrieval results are obtained in vegetation component temperature.Moreover,through a contrast between retrieval results and measured data,it is found that the retrieval temperature of impervious surface component has the maximum deviation from measured temperature and its deviation is greater than 1 ℃,while the deviation in vegetation component temperature is relatively low at 0.5 ℃.

Compensation to the output drift for cooled infrared imaging systems at various ambient temperatures

A method is proposed to compensate the output drift for cooled infrared imaging systems at various ambient temperatures. By calibrating the cryogenic infrared detector which absorbs the radiant flux of blackbody directly, the internal factors can be obtained. Then, by combining the calibration result of infrared imaging system at an arbitrary ambient temperature, the output drift can be calculated and compensated at various integration time and ambient temperatures. Experimental results indicate that the proposed method can eliminate the effect of ambient temperature fluctuation on the system output efficiently.