输气管道的安全保证

随着输气管道建设的发展，管道自身及其周围建筑物的安全保证问题，已引起人们高度重视，关于管道安全保证有两种指导思想：①距离安全保证模式，其设防原则是对管道自身强度有一定要求，主要通过控制不同压力，不同管径的管距建筑物的相应距离来保证管道及附近建筑物的安全；②强度安全保证模式，其设防原则是在管道设计，材料及设备选用，施工，检验，生产到更新改造的全过程中，对管道的强度和严密性有严格的要求，为管道系统及周     

用紫外分光法测定鱼藤中异黄酮类的总含量

根据鱼藤中异黄酮类化合物在紫外光２１０～２４５ｎｍ及２９０～３０５ｎｍ处具有吸收峰这一特性，提出了用紫外分光法测定鱼藤中异黄酮类总含量的方法．在３００ｎｍ波长处，浓度低于６×２．６１８×１０－３／ｍｏｌ·Ｌ－１时，测定了标准系列的吸光值，结果表明吸光值与浓度近乎直线相关，相关系数为０．９９７７；标准系列吸光值准确性高；加样回收率达９９％以上；测定样品时，重现性好．     

大型液化气低温储罐结构及其保冷设计

根据储存液化气大容量储罐的超低温特点，对液化石油气和液化天然气低温储存储罐的隔冷保温材料及其保温结构设计进行了研究，并对几种大型圆筒型立式储罐的结构设计及其技术经济特性进行了讨论和比较。     

5%高渗腈菌唑乳油气相色谱分析方法研究

采用毛细管柱气相色谱法对腈菌唑和氮酮进行定量分析。该方法简单、快速、准确、实用。标准偏差分别为0.027、0.024，变异系数为0.52%、1.15%，回收率分别为99.85-99.90%,99.5-99.9%之间，线性相关系数分别为0.9996、0.9994。     

37 ℃持续热应激肉鸡血气改变的动态分析

80只25日龄雄性AA肉鸡,随机分为对照组(21～24 ℃,相对湿度50%±5%)和试验组(37 ℃±0.5 ℃,相对湿度70%±5%),自由采食和饮水.在12 d的试验期间,动态检测血气指标、呼吸频率、直肠温度和生产性能的变化.结果显示热暴露初期呈现代偿性呼吸性碱中毒,其特点为动脉血二氧化碳分压(3.82±0.36)降低,pH(7.48±0.04)升高;中期呈现失代偿性代谢性酸中毒,其特点为血浆HCO-3浓度(19.00±2.55)降低,pH(7.37±0.06)显著下降(P＜0.05);后期酸碱平衡趋于正常.热应激后,肉鸡日增重和日采食量极显著下降(P＜0.01)、料肉比极显著升高(P＜0.01);呼吸频率极显著升高(P＜0.01);热暴露第1、5、7、9和12天体温极显著升高(P＜0.01).动脉血氧分压与呼吸频率呈极显著负相关(P＜0.01),与体温呈显著负相关(P＜0.05);血氧饱和度与体温极显著负相关(P＜0.01).表明37 ℃持续热应激的肉鸡呈现由代偿性呼吸性碱中毒转变为失代偿性代谢性酸中毒,最后趋于正常的动态变化过程.     

输气管道水化物堵塞的预防和处理

阐述了输气管道内水化物的成因，特性及游离水的来源，并对其进行了分析，根据分析结果，给出了预测管道内水化物形成区域的方法，提出了三项预防水化物的措施，（1）施工阶段避免过多使用弯管，（2）投产前增加吹扫次数，彻底清除水，（3）运行初期定期注入抑制剂，指出对已形成水化物的管道段，可采取尽快降低运行压力，加热，注醇和放空等措施进行处理。     

高效液相色谱法测定齿毛芝中的碱基

采用250SS4.6-ODSZ-8/5色谱柱,体积分数20%的甲醇为流动相,紫外260nm检测,尿嘧啶,尿苷,腺嘌呤腺苷的保留时间分别为2.23min,2.97min,4.13min和6.74min,检测齿毛芝中碱基的摩尔比依次为1`.24:0.41:2.29:2.05.     

河北坝上农田垄向对土壤风蚀的影响

在河北省坝上选择试验区 ,利用移动式风洞研究了农田起垄方向对土壤风蚀的影响。结果表明 ,农田起垄方向对土壤风蚀具有影响作用 :垄向与风向成 0°时风蚀量最大 ,90°时风蚀量最小 ;在 15m·s-1风速和 3cm表土含水率为 4 5 %的条件下 ,垄向与风向成 0°时的风蚀量为 90°时的 4 8倍。为减轻土壤风蚀危害 ,在河北坝上地区农田起垄的方向宜采用与自然风向NW (西北风向 ,315°)成 90°,即东北方向 4 5°。     

Reproductive roles predict sexual dimorphism in internal and external morphology of lake whitefish,Coregonus clupeaformis

Abstract – The different reproductive roles of the sexes can predict the direction and magnitude of sexual dimorphism of external and internal morphology. Males should have enlarged structures that enhance the acquisition of mating opportunities, whereas females are predicted to have enlarged organs that are associated with the production of eggs. We tested these predictions in male and female lake whitefish, a species in which both sexes have similar overall body size and shape. After controlling for body size, male lake whitefish had significantly longer jaws and pectoral and pelvic fins, larger hearts, and more muscle than females. Sexual dimorphism in relative muscle mass may be one of the most fundamental morphological differences between males and females. Females had relatively heavier livers than males. Because the liver is important for the breakdown of fats and vitellogenesis, selection should favour an enlarged liver in females for the processing of energy and the production of large numbers of eggs.     

A novel approach to studying the effects of temperature on soil biogeochemistry using a thermal gradient bar

The temperature dependence of chemical reaction rates and microbial metabolism mean that temperature is a key factor regulating soil trace gas emissions and hydrochemistry. Here we evaluated a novel approach for studying the thermal response of soils, by examining the effects of temperature on gas emissions and hydrochemistry in (a) peat and (b) soil from a Sitka spruce plantation. A thermal gradient was applied along an aluminium bar, allowing soil to be incubated contemporaneously from 2 to 18 °C. The approach demonstrated clear differences in the biogeochemical responses of the two soil types to warming. The peat showed no significant emission of CH₄ at temperatures below 6 °C, while above 6 °C, a marked increase in the rate of release was apparent up to 15 °C (Q₁₀ = 2.5) with emissions being similar between 15 and 18 °C. Conversely, CH₄ emissions from the forest soil did not respond to warming. Nitrate availability in the peat decreased by 90% between 2 and 18 °C (P < 0.01), whereas concentrations in the forest soil did not respond. Sulphate availability in the peat decreased significantly with warming (60%, P < 0.01), while the forest soil showed the opposite response (a 30% increase, P < 0.01). Conventionally, thermal responses are studied by incubating individual soil samples at different temperatures, involving lengthy preparation and facilities to incubate samples at different temperatures simultaneously. Data collected on a given thermal response is usually limited and thus interpolated or extrapolated. The thermal gradient method overcomes these problems, is simple and flexible, and can be adapted for a wide range of sample types (not confined to soil). Such apparatus may prove useful in the optimization of management practices to mitigate the effects of climate change, as thermal responses will differ depending on land use and soil type.