漳江调水工程水质目标可达性研究

针对峰头水库和漳江干流,分别建立零维水质模型和一维非稳态水量水质数学模型,并对参数进行率定。对9种不同调水方案实施后漳江流域近期(2015年)和远期(2020年)水质情况进行预测,结果表明:随着调水量和排污量的增加,漳江水质远期差于近期,且取水口越往漳江下游设置,调水对漳江水质的影响越小;总体上调水对漳江水质影响不大,调水后漳江水质达到地表水Ⅲ类水标准;漳江调水工程从对水质影响方面来说是可行的。     

三岔河沿岸植物铅、镉富集特性的研究

以紫茎泽兰（EupatoriumadenophorumSpreng）、青蒿（HerbaArtemisiaeAnnuae）、三叶鬼针草（Bidenspilosa）、野牡丹（MelastomaAfffine D．Don）、光叶蕨（Knuiwatsukiacuspidata）为例,分别在河边、路边、山上和污水灌溉的旱地4个采样点采取5种植物的根部和茎叶,测量重金属元素Pb、Cd的含量、富集系数和转移系数并分析数据。结果表明,各种植物不同器官在不同环境中对重金属元素Pb、Cd的富集和转移水平各不相同,就平均水平来说三叶鬼针草对重金属Pb、Cd的富集系数较大,转移系数也高,但其对Pb的转移量明显高于Cd的转移量;紫茎泽兰对重金属元素Cd的富集和转移速度相对高于其它4种植物,说明紫茎泽兰对Cd的吸收和转移比较快,可作为受镉污染土壤进行改良的备选植物种。     

火灾下钢框架结构热-力耦合模拟与性能分析

基于"自然火灾安全概念"(NFSC)的基本思想,提出了火灾下钢结构热-力耦合模拟方法。利用ANSYS的参数化设计语言,建立了ANSYS软件与OZone火灾分析软件的数据接口,实现了火灾分析软件与大型有限元软件的耦合运用。基于火灾模拟软件OZone的分析结果,利用APDL语言,对钢框架结构进行了真实火灾场景下的热-力耦合模拟。研究表明:钢框架结构在真实火灾场景下,受非均匀变热流影响,结构内部将产生热应力梯度和应力牵移现象;同时钢框架中钢梁固接时,火灾初期变形较小,当达到某个关键时间点后将开始大的变形破坏,其主要原因是钢框架内部产生塑性铰,即钢梁由固接变为铰接,释放了对钢梁的约束。     

基于人体皮肤热模型的热防护服评价方法研究

在热防护服热防护性能测试装置基础上,用自行研制的新型耐高温模拟皮肤传感器代替铜片热流计测量通过应急热防护服装面料的热流量,将热流量作为热波皮肤模型边界条件,得到人体皮肤表层下80μm处的温度值,从而得到一定条件下人体真实皮肤达到二级烧伤所需时间,用其评价热防护服用织物的热防护性能,并将热波皮肤模型(TWMBT)的测试值与Pennes模型以及铜片热流计的测试结果进行分析比较。采用热波皮肤模型分析织物层下的"皮肤"防热时间更接近实际皮肤达到二级烧伤时间值,可较为精确的量化织物热防护性能,为应急救援热防护服装的热设计提供理论依据。     

Minimizing leakage from a smelter off-gas system by enhanced control

The off-gas handling system is a vital component of a smelter and it is essential that it operates in accordance with environmental regulations. A key feature of the off-gas management system is maintaining a slightly negative system pressure to prevent gas leakage, such as SO₂, out into the work and external environments. To enhance sustainable development, there is also growing interest in capturing and reusing the significant amount of heat and CO₂ contained within off-gas. The potential incorporation of heat and CO₂ recovery systems places importance on enhancing control to minimize the risk of both gas leakage and disturbance of the smelting process. With these requirements in mind, an easily implementable feedforward control enhancement to existing control schemes is proposed to help provide improved performance.     

Environmental and economic assessment of a greenhouse waste heat exchange

As the economic costs of energy and the negative externalities associated with the combustion of fossil fuels threaten the economic viability of greenhouses in northern climates there is a renewed interest in the use of waste heat. This paper presents a technical and economic methodology to determine the viability of establishing waste heat greenhouses using the waste heat from industrial processes in northern climates. A case study is presented of an exchange between a tomato greenhouse and a flat glass manufacturing plant, which found the waste heat system is significantly more economic to operate than a purely natural gas system.     

动力与热力抬升对烟气抬升高度的影响分析

通过模式选择和计算,得出烟气抬升高度的增加与动能和热能的关系,表明当烟囱出口处风速分别为3 m/s、2 m/s和1 m/s时欲增加同样大小的烟气抬升高度,需要的动能比热能要高,结论认为烟气的热力提升比动力提升的贡献大。     

生物炭输入对土壤污染物迁移行为的影响

重点综述了生物炭输入对土壤中污染物的吸附固持作用及生物有效性的影响,分析其作为土壤添加剂消减土壤污染风险的有效性,为生物炭在土壤中的应用研究提供依据。     

Microstructure of 2205 duplex stainless steel joint in submerged arc welding by post weld heat treatment

The 2205 duplex stainless steel (DSS) is of both good properties austenitic steel and ferritic steel, which applies to the shipbuilding industry usually. In this paper, the OM, XRD and microhardness test methods are used to analyze the variation of submerged arc welded (SAW) joints with and without post weld heat treatment (PWHT). The research results show that the σ phase disappear in the fusion edge zone near heat affect zone (HAZ) and an increase in the welded center zone during the follow-up PWHT, while the amount of γ phase is decreased in the welded center zone with PWHT. A segregation distribution of some second phases is also found in the welded center zone after PWHT. There have two pick values of microhardness arise in the fusion edge zone and the welded center zone separately without PWHT. However, a maximum value of microhardness at the fusion edge zone near HAZ is disappeared and the other is still held at the welded center zone during PWHT. It can be attributed to the changes of second phases, element diffusions and particle segregation during PWHT. A developing mechanism is issued to demonstrate the second phases transferring of the 2205 DSS SAW joints by PWHT.     

Improvement of welding heat source models for TIG-MIG hybrid welding process

Tungsten inert gas-metal inert gas (TIG-MIG) hybrid welding process is an effective way to improve welding productivity and quality due to advantages of the two processes. Mathematical analysis is crucial to fundamentally understand this synergetic welding process. In this study, based on experimental visualization of arc behaviors, some assumptions are proposed to deduce adaptive plane and volumetric heat source models separately for each involved welding method first. The influence of torch angles on distribution of temperature and geometry of weld bead are calculated and compared with experimental results. It shows that this developed algorithm of heat source can be employed to accurately predict welding process whether the electrode gun is slanted backward or forward to the direction of welding. Then TIG-MIG hybrid welding process is simulated and analyzed without considering the attractive or repulsive force of two arcs. The characteristic of TIG-MIG welding process is discussed compared to single MIG. It lays the foundation for the further research on the interaction of the two arcs during TIG-MIG hybrid welding.