Effect of H2O2 in the Bioremediation of Petroleum Hydrocarbon Pollutant

The high efficient strain was separated and filtrated from the soil contaminated by petroleum hydrocarbon. The authors, we focus on the effect of H2 O2 in the bioremediation of petroleum hydrocarbon pollutant. The results show that the optimal concentration of H2O2was 200 mg/L at one time. At the lag phase of the strain, H2O2 was added in per eight hour, and at logarithmic phase, H2O2 was added in per two hour. Biodegradation rate of petroleum hydrocarbon was increased from 38. 1% to 83. 1%. The bioremediation of petroleum hydrocarbon pollutant is remarkably by double effects of deep oxidation and oxygen supply of H2O2.     

Pinning Theory of Fermi Energy and Surface State Measurement of ZnSnO3 Gas Sensitive Material

In order to research the state of energy bands and gain and loss of electrons on the surface of ZnSnO_(3),it is put forward that Pinning theory of Fermi energy is applied to development of gas sensitive materials.The relative position between surface state and conduction band on surface of zinc tin complex oxide(ZnSnO_(3)) gas sensitive material has been investigated by utilizing oxidation redox couple,FeCl_(2)/ FeCl_(3),which have high surface state.Fermi energy is pinned at about 0.2 eV below conduction band E_(cs)on the surface of ZnSnO_(3).It has been determined that additives doping ratio,addition concentration and working atmosphere have no effect on this value.Therefore,pinning theory of Fermi energy has been verified by using this method.     

Review on Synthesis Refrectory Nanoparticles

In general, the process of synthesis the refractory nanoparticles Is classified as solid state, liquid state and gaseity. The new progress and development in the study of refractory nanoparticles are investigated. The synthesis technology of the refrectory nanoparticle in liquid state is discussed mostly. The refrectory nanoparticles is synthesized by the liquid state. The characteristics and the structure of the refrectory nanoparticles have been studied in this paper.     

Energy Efficiency Analysis of Heating System in the Birdhouse

In this paper the problem of energy consumption and environment in the birdhouse is introduced and the reconstructive measures aiming at energy savings are recommended. The measures include the limitation of temperature region, reconstruction of the building envelop and using the sunny board at the south side of the birdhouse roof. Finally, the energy efficiency of the reconstructive project is estimated.     

籼稻体细胞胚胎发生特异性蛋白质研究

以籼稻Oryza sativa L.subsp. indica品种“广陆矮4号”幼穗和种子为外植体，在含有2，4-D2.0mg/L的MS培养基上，分别形成胚性和非胚性愈伤组织，建立体细胞胚胎发生实验系统。应用Native/SDS双向凝胶电泳分析，结果表明，非胚性愈伤组织分化培养前后均存在一种分子量为45kD的非胚性蛋白质N1，另一种非胚性蛋白质N2（54kD）仅     

ZrO_2对Al_2O_3基泡沫陶瓷过滤器的性能影响

以Al2O3为主要成分的料浆中加入ZrO2,采用有机泡沫浸渍法,用1560℃烧结制备Al2O3基泡沫陶瓷过滤器,并测定不同ZrO2含量过滤器样品的抗压强度、热震次数并观察其显微结构,实验结果表明:Al2O3基泡沫陶瓷的抗压强度、抗热震性能随ZrO2加入量的增加先增加,而后略有下降。在ZrO2加入量为20%(重量)时制品的抗压强度及抗热震性能最佳,其最高抗压强度达2.31 MPa,1100℃热震循环次数为16次。     

淀粉基质厌氧消化的氢分压变化状况

氢分压(PH_2)是厌氧消化中一项重要的状态参数。本研究进行基质淀粉的中温厌氧消化,观察不同状况下 PH_2变化。结果表明:1.具有不同优势类型产CH_4菌的反应器,对 PH_2变化的承受能力完全不同.2.由有机冲击负荷所造成的PH_2变化,其上升速度与基质类型有关。3.PH_2变化明显地受到有机负荷上升速率的影响。4.系统的自身缓冲能力也关系到 PH_2的变化。因此,本研究认为 PH_2作为厌氧消化有机负荷监控的唯一指标是不恰当的。