The technology of coal gasification in shaft furnace is an effective way to develop direct reduction iron in China. In order to clarify the process of the reduction of oxidized pellets in shaft furnace by carbon monox...The technology of coal gasification in shaft furnace is an effective way to develop direct reduction iron in China. In order to clarify the process of the reduction of oxidized pellets in shaft furnace by carbon monoxide or hydrogen in two ways, i.e. thermodynamics and kinetics, the gas utilization and reaction mechanism were studied by theoretical computations and isothermal thermogravimetric experiment. The results showed that the gas utilization increased with the rise of temperature when xH2/xco≥1 and with the increase of xco/(xH2 +xco) when temperature is less than 1073 K. The water-gas shift reaction restrains efficient utilization of gas, particularly in high tem- perature and hydrogen-rich gas. The gas utilization dropped with increase of carburization quantity of direct reduction iron (DRI) and oxygen potential of atmosphere. With the increase of both temperature and content of H2 in inlet gas, the reaction rate increased. At 100% Hz atmosphere, the interfacial chemical reaction is the dominant reaction re- stricted step. For the H2-CO mixture atmosphere, the reduction process is controlled by both interfacial chemical reaction and internal diffusion展开更多
With the characteristics of coal seam geology and gas occurrence,a'ground-underground' integrated gas drainage method was formed,which can relieve gaspressure and increase permeability by mining the protection...With the characteristics of coal seam geology and gas occurrence,a'ground-underground' integrated gas drainage method was formed,which can relieve gaspressure and increase permeability by mining the protection seams in conditional regions.After coal seam gas drainage,high gas outburst seam was converted to low gas safetyseam.In the coal face mining process,safety and high efficient coal mining were realizedby the measure of gas-suction over mining.In addition to the drainage gas for civil gasand gas power generation,the Huaibei Mining Group has actively carried out research onthe utilization technology of methane drainage by ventilation.On the one hand,it can saveprecious energy;on the other hand,it can protect the environment for people's survival.In2007,the amount of coal mine gas drainage was 120 hm3;the rate of coal mine gasdrainage was 44%.Compared with the year 2002,the amount of coal mine gas drainageincreased by two times.Meanwhile,the utilization rate of gas increased rapidly.展开更多
In recent years, China pays more attention to the protection of environment and resources in the process of social and economic development, puts forward the development concept of green, energy saving and environment...In recent years, China pays more attention to the protection of environment and resources in the process of social and economic development, puts forward the development concept of green, energy saving and environmental protection, and carries on a clear specification for the development of various industries. Under the current situation, flue gas waste heat recovery and utilization technology has attracted more and more attention, which can avoid the waste of energy and maximize the interests of enterprises. Therefore, relevant personnel should pay attention to study and analyze the application of flue gas waste heat recovery and utilization technology, in order to provide some help for the development of enterprises.展开更多
To address the problems about the difficulty in accurate recognition of distribution features of gas flow center at blast furnace throat and determine the relationship between gas flow center distribution and gas util...To address the problems about the difficulty in accurate recognition of distribution features of gas flow center at blast furnace throat and determine the relationship between gas flow center distribution and gas utilization rate,a method for recognizing distribution features of blast furnace gas flow center was proposed based on infrared image processing,and distribution features of blast furnace gas flow center and corresponding gas utilization rates were categorized by using fuzzy C-means clustering and statistical methods.A concept of gas flow center offset was introduced.The results showed that,when the percentage of gas flow center without offset exceeded 85%,the average blast furnace gas utilization rate was as high as 41%;when the percentage of gas flow center without offset exceeded50%,the gas utilization rate was primarily the center gas utilization rate,and exhibited a positive correlation with no center offset degree;when the percentage of gas flow center without offset was below 50% but the sum of the percentage of gas flow center without offset and that of gas flow center with small offset exceeded 86%,the gas utilization rate depended on both the center and the edges,and was primarily the edge gas utilization rate.The method proposed was able to accurately and effectively recognize gas flow center distribution state and the relationship between it and gas utilization rate,providing evidence in favor of on-line blast furnace control.展开更多
Alastraet: The gas-based direct reduction of iron ore pellets was carried out by simulating the typical gas composition in coal gasification process, Midrex and HyMII processes. The influences of gas composition and ...Alastraet: The gas-based direct reduction of iron ore pellets was carried out by simulating the typical gas composition in coal gasification process, Midrex and HyMII processes. The influences of gas composition and temperature on reduction were studied. Results show that the increasing of HE proportion is helpful to improve the reduction rate. However, when ~o(H2):~o(CO)〉1.6:1, changes of HE content have little influence on it. Appropriate reduction temperature is about 950 ℃, and higher temperature (1 000 ℃) may unfavorably slow the reduction rate. From the kinetics analysis at 950 ℃, the most part of reduction course is likely controlled by interfacial chemical reaction mechanism and in the final stage controlled by a combined effect of gaseous diffusion and interfacial chemical reaction mechanisms. From the utilizations study of different reducing gases at 950 ℃, the key step in reduction course is the 3rd stage (FeO→Fe), and the utilization of reducing gas increases with the rise of HE proportion.展开更多
For a full and accurate understanding of the position and role of natural gas in China's energy revolution and providing a decision-making reference for the scientific establishment of natural gas development stra...For a full and accurate understanding of the position and role of natural gas in China's energy revolution and providing a decision-making reference for the scientific establishment of natural gas development strategies and the deepening of the energy revolution,this paper analyzed the role of natural gas in guiding the energy revolution in China and points out the main direction of natural gas utilization in the SichuaneChongqing gas province which takes the lead in China's natural gas industry.The study provides the following findings.First,with a huge space for development,natural gas will play an important role in China's third energy revolution.Second,natural gas resources are abundant and have a huge potential for development in China.Third,natural gas can be used for a large range of purposes in the Sichuane Chongqing gas province.In addition to be used as city gas,natural gas can also be used for industrial fuel mainly as a substitute for coal,transportation,distributed energy,peak-shaving power generation,and high-end natural gas chemical raw materials.Some conclusions are made.First,as the cleanest fossil energy and the best fuel,natural gas will play an irreplaceable role in China's third energy revolution in the 21st century.Second,the SichuaneChongqing gas province is rich in natural gas,hydropower and other renewable resources.By 2020,it will become the largest gas production province in China,with natural gas production over 550×108 m^(3).By 2030,driven by the rapid development of shale gas,gas production in the province is expected to exceed 800×108 m^(3).Third,the SichuaneChongqing gas province is likely to become the leader in China's third energy revolution.展开更多
The paper analyzes the main problems existing in mine gas control and recycling in China, summarizes the development status of gas control, gas extraction and gas utilization, and puts forward the technical framework ...The paper analyzes the main problems existing in mine gas control and recycling in China, summarizes the development status of gas control, gas extraction and gas utilization, and puts forward the technical framework of hydraulic disturbance gas extraction in order to realize safe and efficient green development of mine. A safe, efficient and green deep mine development model has been established, which can provide reference for the development of similar mines in China.展开更多
Clean Production is the best method for iron-steel making industry to eliminate pollution thoroughly. In order to achieve this object, smelting reduction technology should play the key role. Furthermore, process integ...Clean Production is the best method for iron-steel making industry to eliminate pollution thoroughly. In order to achieve this object, smelting reduction technology should play the key role. Furthermore, process integration method can be used to solve the problem of residual gas utilization by integrating smelting reduction process with direct reduced iron unit, gasoline, methanol or dimethyl ether synthesis unit, etc. A new smelting reduction process has been proposed which can be constructed on the present plant site. Since this process can directly treat the lump coal and iron ore fines, it reduces st6ps necessary in traditional blast furnace process and Corex smelting reduction process.展开更多
基金Item Sponsored by National Natural Science Foundation of China(51090384)Fundamental Research Funds for Central Universities of China(N110202001)
文摘The technology of coal gasification in shaft furnace is an effective way to develop direct reduction iron in China. In order to clarify the process of the reduction of oxidized pellets in shaft furnace by carbon monoxide or hydrogen in two ways, i.e. thermodynamics and kinetics, the gas utilization and reaction mechanism were studied by theoretical computations and isothermal thermogravimetric experiment. The results showed that the gas utilization increased with the rise of temperature when xH2/xco≥1 and with the increase of xco/(xH2 +xco) when temperature is less than 1073 K. The water-gas shift reaction restrains efficient utilization of gas, particularly in high tem- perature and hydrogen-rich gas. The gas utilization dropped with increase of carburization quantity of direct reduction iron (DRI) and oxygen potential of atmosphere. With the increase of both temperature and content of H2 in inlet gas, the reaction rate increased. At 100% Hz atmosphere, the interfacial chemical reaction is the dominant reaction re- stricted step. For the H2-CO mixture atmosphere, the reduction process is controlled by both interfacial chemical reaction and internal diffusion
文摘With the characteristics of coal seam geology and gas occurrence,a'ground-underground' integrated gas drainage method was formed,which can relieve gaspressure and increase permeability by mining the protection seams in conditional regions.After coal seam gas drainage,high gas outburst seam was converted to low gas safetyseam.In the coal face mining process,safety and high efficient coal mining were realizedby the measure of gas-suction over mining.In addition to the drainage gas for civil gasand gas power generation,the Huaibei Mining Group has actively carried out research onthe utilization technology of methane drainage by ventilation.On the one hand,it can saveprecious energy;on the other hand,it can protect the environment for people's survival.In2007,the amount of coal mine gas drainage was 120 hm3;the rate of coal mine gasdrainage was 44%.Compared with the year 2002,the amount of coal mine gas drainageincreased by two times.Meanwhile,the utilization rate of gas increased rapidly.
文摘In recent years, China pays more attention to the protection of environment and resources in the process of social and economic development, puts forward the development concept of green, energy saving and environmental protection, and carries on a clear specification for the development of various industries. Under the current situation, flue gas waste heat recovery and utilization technology has attracted more and more attention, which can avoid the waste of energy and maximize the interests of enterprises. Therefore, relevant personnel should pay attention to study and analyze the application of flue gas waste heat recovery and utilization technology, in order to provide some help for the development of enterprises.
基金Item Sponsored by National Natural Science Foundation of China(61263015)
文摘To address the problems about the difficulty in accurate recognition of distribution features of gas flow center at blast furnace throat and determine the relationship between gas flow center distribution and gas utilization rate,a method for recognizing distribution features of blast furnace gas flow center was proposed based on infrared image processing,and distribution features of blast furnace gas flow center and corresponding gas utilization rates were categorized by using fuzzy C-means clustering and statistical methods.A concept of gas flow center offset was introduced.The results showed that,when the percentage of gas flow center without offset exceeded 85%,the average blast furnace gas utilization rate was as high as 41%;when the percentage of gas flow center without offset exceeded50%,the gas utilization rate was primarily the center gas utilization rate,and exhibited a positive correlation with no center offset degree;when the percentage of gas flow center without offset was below 50% but the sum of the percentage of gas flow center without offset and that of gas flow center with small offset exceeded 86%,the gas utilization rate depended on both the center and the edges,and was primarily the edge gas utilization rate.The method proposed was able to accurately and effectively recognize gas flow center distribution state and the relationship between it and gas utilization rate,providing evidence in favor of on-line blast furnace control.
基金Project(50725416) supported by National Natural Science Funds for Distinguished Young Scholars of China
文摘Alastraet: The gas-based direct reduction of iron ore pellets was carried out by simulating the typical gas composition in coal gasification process, Midrex and HyMII processes. The influences of gas composition and temperature on reduction were studied. Results show that the increasing of HE proportion is helpful to improve the reduction rate. However, when ~o(H2):~o(CO)〉1.6:1, changes of HE content have little influence on it. Appropriate reduction temperature is about 950 ℃, and higher temperature (1 000 ℃) may unfavorably slow the reduction rate. From the kinetics analysis at 950 ℃, the most part of reduction course is likely controlled by interfacial chemical reaction mechanism and in the final stage controlled by a combined effect of gaseous diffusion and interfacial chemical reaction mechanisms. From the utilizations study of different reducing gases at 950 ℃, the key step in reduction course is the 3rd stage (FeO→Fe), and the utilization of reducing gas increases with the rise of HE proportion.
文摘For a full and accurate understanding of the position and role of natural gas in China's energy revolution and providing a decision-making reference for the scientific establishment of natural gas development strategies and the deepening of the energy revolution,this paper analyzed the role of natural gas in guiding the energy revolution in China and points out the main direction of natural gas utilization in the SichuaneChongqing gas province which takes the lead in China's natural gas industry.The study provides the following findings.First,with a huge space for development,natural gas will play an important role in China's third energy revolution.Second,natural gas resources are abundant and have a huge potential for development in China.Third,natural gas can be used for a large range of purposes in the Sichuane Chongqing gas province.In addition to be used as city gas,natural gas can also be used for industrial fuel mainly as a substitute for coal,transportation,distributed energy,peak-shaving power generation,and high-end natural gas chemical raw materials.Some conclusions are made.First,as the cleanest fossil energy and the best fuel,natural gas will play an irreplaceable role in China's third energy revolution in the 21st century.Second,the SichuaneChongqing gas province is rich in natural gas,hydropower and other renewable resources.By 2020,it will become the largest gas production province in China,with natural gas production over 550×108 m^(3).By 2030,driven by the rapid development of shale gas,gas production in the province is expected to exceed 800×108 m^(3).Third,the SichuaneChongqing gas province is likely to become the leader in China's third energy revolution.
文摘The paper analyzes the main problems existing in mine gas control and recycling in China, summarizes the development status of gas control, gas extraction and gas utilization, and puts forward the technical framework of hydraulic disturbance gas extraction in order to realize safe and efficient green development of mine. A safe, efficient and green deep mine development model has been established, which can provide reference for the development of similar mines in China.
文摘Clean Production is the best method for iron-steel making industry to eliminate pollution thoroughly. In order to achieve this object, smelting reduction technology should play the key role. Furthermore, process integration method can be used to solve the problem of residual gas utilization by integrating smelting reduction process with direct reduced iron unit, gasoline, methanol or dimethyl ether synthesis unit, etc. A new smelting reduction process has been proposed which can be constructed on the present plant site. Since this process can directly treat the lump coal and iron ore fines, it reduces st6ps necessary in traditional blast furnace process and Corex smelting reduction process.
