Materials Science Forum Vol. 980

Abstract: Activated carbon fiber has excellent structural characteristics and adsorption performance. It can effectively adsorb various inorganic and organic compounds and has good regeneration performance. Therefore, it is widely used in the market. To study the advantages of activated carbon fiber in purifying water resources, this research use application of activated carbon fiber material in purification and filtration of water filter, and the test of adsorption and filtration effect of different host materials are described. The main body and influencing factors of filtering effect are obtained. In this research, the viscose-based activated carbon fiber mats and acrylic-based activated carbon fabrics are the main research subjects, and other materials were added for coating composite research. Through a comparative study of the two materials, it has been found that carbon fiber has many advantages, such as is more economical, practical, convenient, low cost, and cost-effective, and is worthy of promotion in industry and daily life using.

Abstract: As a high-quality non-polluting energy source, coalbed methane is widely used in power generation, automobile fuel and other fields. Moreover, the concentration of coalbed methane can be effectively reduced by exploiting and utilizing coalbed methane so as to eliminate the gas accidents fundamentally. In the coal mining area, the exploiting of coalbed methane resources are closely related to the hydrogeological conditions. This paper discusses the controlling effect of hydrogeological conditions on coalbed methane exploitation mainly from chemical characteristics, the hydraulic connection between aquifers, groundwater recharge, runoff and discharge characteristics and so on. The results showed that the water-bearing zones were recharged by precipitation. The isotopic characteristics of the coalbed water, the taiyuan limestone aquifer, the ordovician limestone aquifer showed that the groundwater were ancient which are formed earlier and the coalbed water expressed a definite drift feature of D. There had a weak hydraulic interaction between different aquifers. Mg²⁺, Cl^-, HCO₃^-, TDS are the monitoring index of drainage production water. If the hydrogeological problems are frequently occurred When mining, it is necessary to analyze the hydrogeological conditions objectively and study the relationship between them to make the coalbed methane scientifically exploitation to improve efficiency and quality of coalbed methane.

Abstract: For the unreacted nuclear model, predecessors have established a more complete theoretical model under the assumption of steady-state conditions. And deduced the general equation of the rate of reduction of pellets. In this paper, we focus on the model of iron ore pellet reduction, not only establishing a single-interface unreacted nuclear model but also establishing a three-interface unreacted nuclear model. The activation energy and diffusion coefficient of iron ore reaction under certain conditions are obtained. According to the fitted images, the speed limit factors in the iron ore pellet reaction model are analyzed completely. In this paper, a pellet decomposition model was established to try to determine the kinetic and thermodynamic parameters of the pellet reaction without the need for experimentation, to simulate the reduction of pellets, and to determine the process of limiting the reaction rate and the process Strengthen.

Abstract: Ceramic kiln in the use of the process of high energy consumption, high resource consumption, serious environmental pollution and other problems are the current ceramic industry development of serious problems.Kiln combustion exhaust gas pollution types mainly include: SO₂, NO_x, CO, particulate matter, lead, cadmium, nickel and its compounds, fluoride and chloride and so on, and the traditional kiln direct emissions into the atmosphere, causing serious pollution to the environment, the need to have reliable purification treatment devices to meet emissions requirements, but the original purification plant purification effect is poor, process complex aspects of problems.This paper introduces a new porous ceramic purification device to improve the electric kiln exhaust gas purification to improve the catalytic conversion of CO, NO_X, SO₂ desulfurization and particulate matter purification.

Abstract: Data collected from 24 marine monitoring stations in Luanhekou-Beidaihe ecological monitoring marine area from 1999 to 2014 reveal a substantial change in the nutrient of this region. The content of nitrogenous nutrients has increased, but phosphate and silicate have decreased. The average N:P ratios have increased from 4.951 in 1999 to 47.188 in 2014;while the Si:N ratios have decreased. The nutrient structure has substantially changed over a period of 16 years. Before 2004, phosphate was relative surplus but inorganic nitrogen was relative lack, while relative surplus of inorganic nitrogen and relative lack of phosphate after 2004. The water quality changed from low nitrogen and high phosphorus (before 2004) to high nitrogen and low phosphorus (after 2004).This finding shows that the nutrient structure may be related to anthropogenic influence.

Abstract: In this paper, 11 indexes were selected from three aspects: water resources environment, economy and society to construct the evaluation index system, and the main component analysis method was used to comprehensively evaluate the carrying capacity of water resources in Henan province for the past three years. The research results show that: 1. During the current period, the carrying capacity of water resources in Henan Province has been steadily increasing. The cities with good carrying capacity of water resources are: Zhengzhou, Luoyang, Xinxiang and Nanyang; Cities with better water resources capacity include Kaifeng, Pingdingshan, Anyang, Jiaozuo and Xinyang; The remaining cities have general water resources carrying capacity;The contribution of each subsystem to the integrated carrying capacity of water resources is increasing year by year, among which the contribution of water resources environmental subsystem and economic subsystem is the largest and the contribution of social subsystem is relatively stable.The conclusion shows that the development level of Waterscape tourism industry in Zhengzhou, Luoyang, Kaifeng, Jiaozuo and other areas is higher, while the Waterscape tourism industry in Luohe, Xuchang, Zhoukou and other areas is lower. The development level of Waterscape tourism industry in Henan Province from the view of the overall spatial pattern is higher. The water resources management and utilization level of henan is relatively high.

Abstract: Underground mining has caused drastic disturbances to regional ecosystems and soil nutrients. Understanding the 3D spatial distribution of soil organic matter in coal arable land is crucial for agricultural production and environmental management. However, little research has been done on the three-dimensional modeling of soil organic matter. In this study, 3D kriging interpolation method and 3D stochastic simulation method were used to develop the 3D model of soil organic matter , and the root-mean-square error (RMSE) and mean error (ME) were used as evaluation indexes to compare the simulation accuracy of the two methods. Results showed that the spatial distribution of soil organic matter obtained by using 3D kriging interpolation method is relatively smooth, which reduce the difference of spatial data; while the spatial distribution of soil organic matter obtained by using 3D stochastic simulation method is relatively discrete and highlights the volatility of spatial distribution of raw data, the RMSE obtained by 3D kriging interpolation method and 3D stochastic simulation method respectively is 2.7711 g/kg and 1.8369 g/kg. The prediction accuracy of organic matter interpolation obtained by 3D stochastic simulation method is higher than that by 3D kriging interpolation method; so the 3D stochastic simulation method can reflect the spatial distribution characteristics of soil organic matter more realistically, and more suitable for 3D modeling of soil organic matter. According to the 3D modeling of soil organic matter, the content of soil organic matter has obvious spatial difference in different soil depth（0-20 cm、20-40 cm、40-60 cm） and decreases with the increase of soil depth; The result also showed that the content of soil organic matter decreased rapidly from the upper slope to the middle slope, and gradually increased from the middle slope to the bottom, so the soil organic matter content was obviously lost in the middle slope. This result may provide useful data for land reclamation and ecological reconstruction in coal mining subsidence area.

Abstract: The Jinlong area is located in the northwestern margin of Junggar Basin. Volcanic is widely distributed in Carboniferous layers, showing well petroleum resources prospects. The distribution of volcanic reservoirs is obviously controlled by the distribution characteristics of volcanic lithofacies. Therefore, through the analysis of core observation, thin section identification, data of well logging and mud logging, and interpretation of seismic data, this paper studies process simulation of Carboniferous volcanic in the Jinlong area, which is located in the northwestern margin of Junggar Basin. Based on the characteristics of volcanic materials and comparison of profile facies, the paper restores distribution characteristics of lithofacies of Carboniferous in the study area: The study area mainly develops volcanic lithofacies such as effusive phase and explosive phase. The thickness between wells varies greatly, which is affected by eruption mode and fault development. The vertical and horizontal changes of lithofacies are discontinuous and the phase transformation is fast. The volcanic activity of Carboniferous gradually weakened. There are multiple volcanic eruption centers in each period, which are controlled by crack and distributed in beads. In addition, an intermediate-mafic composite volcanic-crack eruption edifice was developed in the southern zone of the study area. Because of strong tectonism in the area near the crater, there are many dissolvable components in volcanic, which can form favorable hydrocarbon reservoir bodies and become the most favorable target zone in the Jinlong area.

Abstract: The proliferation of beach renovation is affecting the change of the landform of the coast and threatening the ecological environment. Therefore, it is necessary to assess the impact on the environment after the beach is transformed. The survey area is located near the Shipu fishing port in the south of Ningbo City, Zhejiang Province. Based on the Delft-3D grid nesting model and wave-fluid coupling model, the astronomical tide and hydrodynamic environment of the 30 days before the construction were simulated. After the beach was rebuilt and sand was added and the spur dike was added, the astronomical tide and hydrodynamic environment were again simulated. Finally, based on the simulated data, the water level, velocity field, effective wave height distribution, and siltation and siltation of Xinhe Beach were obtained. Xinhe Beach's environmental damage risk indicators can be evaluated based on water level, velocity field, effective wave height direction and sediment erosion and deposition. Artificial sanding and construction of spur dikes will change the hydrodynamics and scouring and siltation of Xinhe Beach, but have little effect on the coastal terrain and ecological environment.

Abstract: It is an important precondition and basis for the design of tailings reservoir and its safety facilities by reasonably judging and estimating the mud-sand flow hazard due to dam-break. In this paper, the mud-sand flow hazard scope, extent and spatial state after dam-broken of heightened Mawuqing tailing dam were simulated and analyzed through a flood and debris flow numerical simulation approach, and the hazard risk grade of different spatial locations of downstream Xiaoqingkou(XQK) village was obtained from the simulation. Then the spatial simulation of sand flow hazard under different preventive measures was carried out, and the variation of hazard risk grade at different spatial locations in XQK was obtained. The result of spatial simulation and analysis has shown that if the retaining wall or detention dam is set at the edge of the village, the risk hazard of the village due to dam-break can be reduced after the tailing dam is heightened. At the same time, it can be concluded that to reduce dam break hazard the above local engineering measures are more effective than an overall engineering measures to control the mud-sand flow. The spatial simulation and analysis have provided the basis to make more reasonable engineering decision and protection measures for XQK after the reconstruction of the tailing dam, and also provided the technical support for tailing dam-break accident prevention, the safety management of tailing dam and the mine production safety.