Computation of Three-Dimensional Temperature Distribution and Thermal Analysis to Integrated Circuit Substrates

The exact three di me nsional temperatu re distribution and thermal analysiS to inte-grated circuit substrates have been presen ted by means of numerical method of a fin ite difference.Thismethed.which will overcome the di fficuItv of mathematical deduction mav be consltieredas an analytical way aided by com puters for thermal design of electron ic compon ents.     

Influence of Indoor Thermal Environment on Thermal Comfort of Human Body

Analyses the thermal environment parameters from physiological aspect and from psychological aspect respectively. Introduces the conception of thermal comfort of human body from heat balance aspect. Presents some measures to improve indoor thermal environment and advance thermal comfort of human body. Analyses the influence of indoor thermal environment on thermal comfort of human body and some questions on the aspect of this research, also puts forward some advices.     

A STUDY ON HEAT AND MOISTURE STATE OF HULL LAYER FOR THERMAL INSTULATION OF A COLD STORAGE

This paper analyses the thermal moist characteristics of the hull layer beside an air layer at lower temperature in an envelope for a cold storage and presents a new method of waterproof by air layer. With test data from engineering practice, the theory on the barrier of self moisture proof at the surface sublayer of the hull layer in an attic on a cold storage is proven. The dried zone about three phase point is confirmed. It is a new knowledge for thermophysics on thermal design of a cold storage with an optimum thermal performance.     

潮州三百门电厂冷却水排放的数值模拟研究

海湾及潮汐河口的冷却水工程研究近年来受到人们的重视，由于受到潮汐的影响，其冷却水布置及热污染特性比河道及水库型更为复杂。采用数值模拟的方法，首先对电厂附近的潮流特性及冷却水输移扩散进行模拟计算，研究了电厂近海水域的水动力结构及其对冷却水排放的影响，给出电厂取水温升及热污染范围，为电厂取水设计工作提供依据。     

浇筑温度对碾压混凝土重力坝温度应力的影响

采用三维有限元浮动网格法模拟碾压混凝土重力坝薄层施工过程，对百色碾压混凝土重力坝施工期和运行期的温度场、温度徐变应力场进行了全过程仿真计算，分析了按旬平均气温浇筑和设计浇筑温度浇筑两种不同浇筑温度对坝体温度应力分布的影响．     

棉枯萎菌血清学检测技术初步研究

以棉枯萎镰刀菌菌丝中孢子提取的蛋白质为抗原免疫家兔制备的２种抗血清Ａｓ２、Ａｓ１０中成分复杂，用琼脂双扩散法和比较对流免疫电泳法测定特异性，交叉反应明显。Ａｓ２用木贼镰刀菌的异原、Ａｓ１０用禾谷镰刀菌的异种抗原吸收排除非特异性成分后，抗血清的专化性提高，消除了交叉反应。特异性测定结果表明；利用此种经吸收后的抗血清检测棉枯萎镰刀菌可以准确地鉴定到尖孢镰刀菌种的水平，但不能区分专化型。     

温度对微小花蝽实验种群增长的影响

实验室饲养观察结果表明，在15－35℃温度范围内，随温度升高，微小花蝽的发育速率加快，成虫寿命缩短，在25℃下的世代存活率最高。根据实验数据计算出该虫的卵期发育起点温度为13．6℃，有效积温为1＝55．15日．度；若虫期发育起点温度为8．0℃，有效积温为270．1日．度。组建了25℃和30℃两种温度下的该虫的实验种群生命表。     

Main stem movement of Atlantic salmon parr in response to high river temperature

Atlantic salmon become thermally stressed when water temperatures exceed 23 °C. To alleviate this stress, they behaviourally thermoregulate by moving to patches of cold water, often forming large aggregations. These patches are known as thermal refuges. Given the consensus that climate change will increase temperatures in Atlantic salmon catchments, thermal refuges will become increasingly important in minimising summer mortalities. While the behaviour of salmonids within thermal refuges is fairly well understood, less is known about their main stem movement in search of thermal refuges or its thermal and temporal cues. We detail the results of a PIT telemetry study to investigate the main stem movement behaviour of thermally stressed Atlantic salmon parr in a temperature‐impacted river. PIT antennas placed around two thermal refuges and at the upstream and downstream limits of their surrounding reach were used to record the movement of salmonids during a heatwave. We observed parr movement at the upstream and downstream antennas 135 min prior to the occurrence of the midpoint of aggregations in the thermal refuges, indicating that Atlantic salmon parr make reach‐scale movements in search of cool water prior to aggregating. Logistic regression showed that the number of degree hours >28 °C predicted the occurrence of main stem movement with a good degree of accuracy, indicating that this temperature represents a fundamental threshold causing Atlantic salmon parr to move towards cool water. Such data could be instrumental in allowing river managers to place limits on human activity within rivers, allowing salmon populations time to recover following heat stress events.     

Molecular Cloning and Characterization of a Novel Gene Involved in Fatty Acid Synthesis in Brassica napus L.

Based on the sequence of a novel expressed sequence tag (EST), the full-length cDNA of 1 017 nucleotides was cloned from Brassica napus cv. Xiangyou 15 through rapid amplification of cDNA ends (RACE). The gene was designated as Bnhol34 (HQ585980), encoding a protein of 338 amino acids. BLAST analysis showed no high degree of sequence identity to any known gene. The calculated molecular weight of the Bnhol34 protein was 36.23 kDa, and the theoretical isoelectric point was 8.74. The Bnhol34 was also cloned from a high oleic acid mutant 854-1 through homologous cloning. There was no difference between the two Bnhol34 genes. Bnhol34 was localized in a tissue-specific manner in B. napus, and its expression level was about eight-fold greater in Xiangyou 15 seeds than in 854-1. The promoter region sequences of Bnhol34 were then isolated from Xiangyou 15 and 854-1, and a 93-bp deletion was found to occur in the Bnhol34 promoter region of 854-1. Three abscisic acid-responsive cis-elements (ABRE) were identified in the promoter region of Xiangyou 15. Real-time PCR analyses revealed that exogenous abscisic acid increased Bnhol34 expression by about four-fold in Xiangyou 15 seeds, yet did not change Bnhol34 expression in 854-1. It appeared that Bnhol34 might be abscisic acid insensitive in 854-1.