水火弯板成形后板表面形状的数学模型

给出了水火弯板成形后板下表面的曲面方程的基本形式．水火弯板的变形场可由成形后板的表面形状及平面内变形全面描述．对于帆形板火焰成形的变形，大量计算结果表明，各种加工条件下板成形后的表面形状是相似的，即曲面可以用同一种曲面方程描述．通过对计算结果的回归分析，得到了此曲面方程的具体形式，并比较了计算和拟合结果．准确性满足工程要求．     

高温高湿地区环保节能住宅的设计与模拟计算

为了开发研究适合湿热地区的环保节能住宅新技术，以建在广西南宁市的示范房为实例，介绍了如何根据当地气候条件和建筑材料资源，设计综合利用太阳能等自然能源的环保节能住宅，并用当地的气象数据预测了本示范房的节能效果和太阳能发电量。     

英汉暖通术语翻译

暖通行业术语是暖通行业语言词汇的重要组成部分、从工艺流程，管网管件及土建等方面探讨了英汉暖通术语的翻译。     

锅炉对流受热面非线性动态过程的数字仿真

根据直流锅炉对流受热面管内介质及管外烟气流动传热所遵循的质量守恒方程、动量守恒方程、能量守恒方程及金属蓄热方程，采用分布参数法建立了考虑喷水及蒸汽冷凝等情况的过热器、再热器及省煤器动态过程数学模型，该模型能够计算包括参数变化幅度大、锅炉启停与事故状态下的对流受热面动态特性。作为一个例子，计算了石洞口第二电厂1993年7月6日冷态启动过程锅炉主蒸汽压力与温度、再热蒸汽温度及省煤器压力与出口温度等参数随燃料量的变化关系，结果表明计算值与测量值比较一致，所建立的模型是正确可靠的.     

浅谈集中供热运行调节

论述了初调节与运行调节的目的及其相互关系。从运行调节及集中调节(即质调节、量调节、分阶段变流量的质调节、间歇调节)两大方面对集中供热做了较详细的阐述。     

集中供热分户热计量技术的发展及户内系统型式

介绍了供热系统热计量技术的发展及我国供热系统的现状 ,阐明了在我国目前情况下 ,新建建筑和旧建筑实行热计量的户内系统设计方案和主要技术措施 ,并分别指出了其优缺点和适用范围 .     

连续加热炉运行状态非线性融合分析

利用加热炉测控系统取得的实时测量数据和炉内钢坯温度预报模型，通过网络信息融合方法，对连续加热炉的运行工况进行综合分析，其分析结果对在优化加热炉运行参数具有重要参考作用，此分析方法对类似的设备和生产线有较普遍的参考价值。     

模糊控制技术应用探究

根据某工业现场中加热炉的理想特性,结合锅炉实际运行及控制状态,模拟现场在不同工况下的人工操作过程,将模糊控制技术应用在加热炉的控制使用之中,实践应用的效果证明这是一种比较理想的控制方式.     

Aerodynamic configuration optimization by the integration of aerodynamics,aerothermodynamics and trajectory for hypersonic vehicles

The problem of aerodynamic configuration design optimization is a multidisciplinary design optimization （MDO） problem, and recently the MDO method is widely adopted in the field of hypersonic vehicle configuration design. From the aerodynamic point of view, the aerodynamics, aerothermodynamics and trajectory are considered in this paper. Generally speaking, the aerodynamic characteristics, aerodynamic heating and trajectory are determined by the aerodynamic configuration and the design of flight trajectory. The design method considering these three disciplines is proposed. The parametric geometrical configurations are proposed, and the aerodynamic characteristics are predicted by the rapid and effective engineering method. The optimization of aerodynamic configuration considering the integration of aerodynamics, aerothermodynamics and trajectory is investigated based on the parametric geometrical configuration. Maximum lift-to-drag ratio, maximum range of the trajectory and minimum total heat load of the stagnation point are chosen as the three optimal goals. The detailed research indicates that the optimal configurations and trajectories with different weighting factors can be obtained by the optimization, and there are obvious differences between them. The optimal configuration and flight trajectory obtained by the optimization can be used as the feasible schemes in the future work.     

Study of space heating by dual-function solar collectors

A novel solar collector named dual-function solar collector （DFSC） has been proven feasible for sup-plying warm air for space heating in winter and hot water during none-heating season by theoretical and experimen-tal studies. While integrated with building, the DFSC becomes component of the envelope. Because complexly coupling of several heat transfer modes and subjecting to random weather condition, the thermal influence of DFSC on a building remains obscure. In order to investigate the effect of DFSC for passive and active heating, a demon- strating office building integrated with DFSC panels on the southern wall and roof has been built in Hefei, in the east region of China. A simulation project of the whole building system in winter was built by the software TRNSYS with the new component developed for DFSC and compiled into the TRNSYS library based on the validated theoretical method and experimental results from previous studies. The simulation results show that the energy supplied by the DFSC can meet the heating requirement at most of the time of a sunny day, except early morning. More than 30 % solar fraction can be provided during the whole heating season in Hefei, the value further increases to 59 % in a region of high solar irradiance, such as Lhasa. While active DFSC panels are operated to provide fresh warm air through ventilation system, the flow rate shows strong influence on the solar fraction of heating load. With appropriate operation scheme of the active DFSC, more energy savings and thermal comfort can be achieved.