露天矿潜孔钻机泡沫发生器的性能实验

为解决露天矿潜孔钻机作业粉尘污染严重的问题,从传统除尘技术应用效果差、耗风量大、取水困难等事实出发,根据泡沫除尘机理及两相泡沫发泡原理,设计了一种适用于露天矿潜孔钻机的泡沫发生器,并对其发泡性能进行研究.通过开展泡沫发生器的泡沫流量、发泡倍数及半衰期等性能实验,确定出影响泡沫发生器发泡性能的主要因素,得出泡沫发生器的最佳工况点.实验结果表明:气体流量、液体流量(气液比)、发泡网及发泡剂质量分数是影响泡沫发生器发泡性能的4个主要因素,在工况为发泡网1、质量分数1.5%的配方2、气体压力0.7 MPa、液体流量18 L/min及气体流量30 m~3/h条件下,泡沫发生器发泡性能达到最佳,其流量为515 L/min,发泡倍数为22,半衰期为65 min.经现场试验,泡沫除尘后采场平均降尘率高达90%以上,应用效果良好.     

消泡剂在发酵工业中的应用

泡沫问题是发酵工业中一个棘手的问题,几乎所用的液体深层发酵都会用到天然或者化学消泡剂。在过去的发酵过程中,泡沫控制一般是依靠经验,关于消泡剂的系统知识较少。本文综述了发酵工业中消泡剂的种类和作用机制,以及消泡剂的应用进展。     

融入3G网络的《管理学原理》课堂教学创新

《管理学原理》课堂教学创新基于3G网络,运用移动教学方式,整合教学资源,增进教师与学生之间、学生与学生之间、学生与社会网络资源之间交互学习、交流频率,大学教育思维方式与社会网络资源有效整合,毕业前,学生的理性思维方式得到培养,是大学精神的延续。     

酚醛泡沫板脆性与粉化性能实验

目的研究胶粘剂对酚醛泡沫板脆性与粉化性的危害,提出通过界面剂处理来阻断胶粘剂对酚醛泡沫板损害的方法．方法采用断裂力和回弹率两种方法测试酚醛泡沫板的脆性,砂纸粉末法测试酚醛泡沫板的粉化度,通过红外光谱研究两种性能变化的原因．结果Ca（OH）2浸泡和胶粘剂粘结后出现紫红色物质均对泡沫板的脆性和粉化性能产生负面影响．经Ca（OH）2浸泡与原样相比断裂力减小,回弹率和粉化度增加,最大差值分别为8．12N、4．61％、3．24％．胶粘剂粘结后酚醛泡沫试样断裂力和回弹率均减小,粉化度增加,最大差值分别为20．58N、7．25％、4．49％．自然晾晒、粘结胶粘剂潮湿养护和Ca（OH）2浸泡的酚醛泡沫板粉化度相对于原样依次增大,最大粉化度分别为12．56％、11．02％、8．91％、8．27％．结论界面剂的使用,有效地阻断了胶粘剂和酚醛泡沫板的直接接触,因此能够降低泡沫板脆性破坏与粉化增加速度,可以应用于工程实践中．     

海上油田多元热流体吞吐气窜调剖实验研究及应用北大核心CSCD

目的多元热流体吞吐技术是海上稠油开发的一种经济、有效的技术,但随着吞吐轮次的增加,暴露出易发生“气窜”的问题,即N_(2)、CO_(2)等非凝析气体容易突破到周边生产井,导致其电泵气锁关井影响生产。方法以渤海NB稠油油田为研究对象,采用可视化实验方法,研究防止气窜的治理策略。结果筛选出适合油田的磺酸基泡沫调堵体系,命名为QGQ-4,优化研究出最佳注入参数为质量分数0.4%、泡沫干度在60%以上、地面预制泡沫注入方式。与单纯多元热流体驱相比,泡沫辅助多元热流体驱可提高油藏波及,有效封堵气窜通道,提高平面波及系数37%。结论研究成果现场应用后,受益井初期高峰日产油增加到措施前的1.5倍,日产油由措施前的50.5 m^(3)增至措施后的高峰日产油75.7 m^(3),取得了较好的增产效果。     

Effect of DAPBO segment on the structure and performance enhancement of powder foamed BTDA-ODA polyimide

Achieving excellent thermal stability, good mechanical strength, and low-density in one product, is a big challenge in the design and synthesis of polyimide (PI) foams. We selected a rigid diamine monomer, 2-(4-aminophenyl)-5-aminobenzoxazole (DAPBO) to partially replace 4,4′-oxydianiline (ODA) in BTDA-ODA system, and studied the effect on properties of foamed PI products. With various molar ratio between DABPO and ODA (0:5, 1:4, 2:3, 3:2, 4:1, 5:0), the diamine(s) polymerized with 3,3′,4,4′-benzophenonetetracarboxylic dianhydride (BTDA) and produced six PI precursors (PAE-0 ~ PAE-5). After foaming and thermal imidization, corresponding PI foams (PI-0 ~ PI-5) prepared. Among them, PI-3 has a glass transition temperature of 386°C, which is 95°C higher than PI-0, and its compressive strength reaches 1.32 MPa. Moreover, PI-3 has a uniform cell structure with an average pore size of ~200 μm. The analysis results show that PI-3 is in a transition state from amorphous to partial crystalline, maintaining a balance between flexibility and rigidity. The addition of DABPO not only increases the rigidity of polymer molecular segments, but also introduces N and O atoms that can form intermolecular hydrogen bonds between molecules, which increases the packing density and arrangement regularity of polymer molecules.     

Open-cell polyvinylidene fluoride foams as carriers to promote biofilm growth for biological wastewater treatment

This article reports the design and fabrication of open-cell polyvinylidene fluoride (PVDF) foams as carriers that can promote biofilm growth and organic removal efficiency for biological wastewater treatment in attached growth bioreactors. Open-cell PVDF foams were fabricated by a manufacturing approach that integrated compression molding and particulate leaching. PVDF carriers were structured with two governing factors of leaching agent types (e.g., sodium chloride [NaCl] and sodium acetate [NaOAc]) and contents (e.g., 80 and 90 wt%). Open-cell PVDF foams possessed high porosity and high protected surface area (i.e., more than ×10 to ×20 of the areas of commercialized carriers), which promoted biofilm growth in these carriers. As a successful advantage, PVDF carriers used in the moving bed biofilm reactors (MBBR) were entirely covered by biofilm in both interior and exterior parts without clogging. This provides strong evidence of the bacterial compatibility of the fabricated open-cell PVDF foam carriers. Moreover, the specific morphology of the PVDF carriers in this article provided superior biofilm protection from the detachment in MBBR. Experimental results revealed that PVDF open-cell foams fabricated by 80 wt% of NaCl demonstrated higher mechanical strength with an organic removal efficiency of 77% ± 7% in the corresponding bioreactor containing them.     

Relationship between microstructure and mechanical properties of polyether block amide foams

The mechanical behaviors of five polyether block amide foams, obtained by mold-opening foam injection process, were investigated with regard to their microstructures. The materials vary in mass ratios of hard versus soft segments, and/or in process packing time. The resulting microstructures have been characterized in terms of cavity size and shape ratios, by analyzing scanning electron microscope images after careful sample preparation. The foam mechanical responses have been characterized in compression at small and large strain. At small strain, the initial linear part of the stress–strain curve is enhanced firstly by the hard segment mass ratio and secondly by the fineness of the microstructure. Similar results have been obtained at large strain. The foam viscoelasticity at large strain has been characterized by stress relaxation and strain recovery tests, relevant for foam applications. Reduced packing time and pressure have been shown to lead to the presence of undesired large cavities. The morphological defects appear to have a negligible impact on the macroscopic mechanical behavior of the foams at infinitesimal strain, but lead to critical inconsistency at large strain. Furthermore, the mechanical behavior of the tested polyether block amide foams is controlled first by hard versus soft segments ratio, and second by the microstructure fineness.     

新型微发泡气体注射器注气过程可视化研究

气体注射器是微发泡注塑过程中一个重要装置,本文研究了新型气体注射器的注气过程,通过高速摄像和计算机数据采集系统采集的压力曲线分析注气过程,发现气体从气体注射器进入可视化装置时呈分散状态,有利于在微发泡过程中气体与熔体的分散混合。通过压力数据计算注气流量并配合高速摄像图像分析发现,注气压差和初始水压对注气流量影响很大。通过研究注气过程和注气量,发现新型微发泡气体注射器注气过程稳定可控,可用于微发泡注塑实验。     

锶对消失模铸造B319铝合金铜相的影响

在消失模铸造慢冷条件下，B319铝合金组织中除存在α—Al枝晶及Si相外，还存在珊瑚状的A12Cu相及针状的β—Fe相，且Si相及针状β-Fe相可以作为Al2Cu的形核基底。Sr变质引起了离异共晶反应，使A12Cu相在缺乏Si相的区域析出，并促使Si在Cu相中溶解。研究还表明，采用0．03％Sr可以获得较好的变质效果，并使A1—Si共晶温度从575．9℃下降到566．4℃，从Cu相析出温度从520．4℃下降到512．5℃。