If assortment priee parity of Clase coking coal and its qtalty price danrcnee is nonreasonable, it deren't gulde in Anprotrig tbe quallry metaliurgical coking coal and may be influence theeconomic benefit of me...If assortment priee parity of Clase coking coal and its qtalty price danrcnee is nonreasonable, it deren't gulde in Anprotrig tbe quallry metaliurgical coking coal and may be influence theeconomic benefit of metallurgical enterprises. This paper propose the principles and mathematicmodel for determination aseortment party of clean cokingcoal and its quality difference of ash content in clean coking coal in order to urge wasbenes into producing superior clean coking cleal whichis under condition of consideration both interest waskeries and interest metallurgicai industry. It canbe used as a method in theory to make price strategies under condition of socialism maket economicfor washeries of clean coking coal展开更多
Crucible lead smelting, a traditional technology unique to China, refers to the production of lead by reducing lead sulfide with iron metal in crucibles. In recent years, a number of crucible lead production sites of ...Crucible lead smelting, a traditional technology unique to China, refers to the production of lead by reducing lead sulfide with iron metal in crucibles. In recent years, a number of crucible lead production sites of the Liao-Jin-Yuan periods(tenth–fourteenth centuries CE) have been found in northern China, providing opportunities for the study of the technology. This paper provides a comprehensive overview of this technology based on the historical and archaeological evidence, with particular emphasis on the crucibles used. Firstly, it reviews the historical records on crucible lead smelting, and introduces, in detail, the technology used in Gansu during the Qing period(1644–1911) as well as indigenous methods used in the twentieth century;secondly, it summarizes the discoveries of crucible lead smelting sites in recent years, and reconstructs the manufacturing of crucibles and the iron reduction method by analysis of the crucible and slag;finally, it expounds the technical characteristics of crucible lead smelting, and explores the origin and development of the technology.展开更多
This research was performed in order to allow the study of the chemical composition influence of the coking process load on the efficiency and the quality of coke. For this reason, the coking of the following loads wa...This research was performed in order to allow the study of the chemical composition influence of the coking process load on the efficiency and the quality of coke. For this reason, the coking of the following loads was realized: Atmospheric residue (RAT), vacuum Residue (RSV) and catalytic Residue of cracking (RCC). (The residues are obtained from an Algerian crude oil). As the oil residues are rich for their strongly polar composition, such as the asphaltene resins, and complex structures units (SCU), which has a role in the formation of coke, and as the dispersion of these latter improves the quality of coke, a study on the stability of aggregation was carried out by the addition of one stabilizer (oil Extract) in the coking process load, The Compounding (Extracted from/RCC oil) has been drived to the best efficiency of coke. The study consists of the influence this is characterized by the analyses Infra-red (IR) and x-ray diffraction (XRD).展开更多
The aim of the present work is to remove heavy metals (copper, manganese, and zinc) from industrial wastewater of Baiji refinery using GAC (granular activated carbon). The most important factors affecting adsorpti...The aim of the present work is to remove heavy metals (copper, manganese, and zinc) from industrial wastewater of Baiji refinery using GAC (granular activated carbon). The most important factors affecting adsorption process have been studied, which are granular activated carbon thickness, H, inlet pollutant concentration, Cv, and liquid hourly space velocity, LHSV. All experiments were performed under constant temperature at 25℃ and pH = 7. The experimental apparatus was designed and constructed to enable controlling of the operating conditions. Employing five levels for each of H and LHSV and three levels for Co required 75 runs for each metal. Box-Wilson method was used to reduce the number of experiments to 15 for each metal. The results indicated that copper, manganese, and zinc can be completely removed from wastewater using activated carbon. However, breakthrough time for zinc is low. It is also shown that breakthrough time (TB) and exhaustion time (TE) are inversely proportional with pollutant concentration and LHSV (liquid hour space velocity) while it is directly proportional with the thickness of activated carbon column.展开更多
文摘If assortment priee parity of Clase coking coal and its qtalty price danrcnee is nonreasonable, it deren't gulde in Anprotrig tbe quallry metaliurgical coking coal and may be influence theeconomic benefit of metallurgical enterprises. This paper propose the principles and mathematicmodel for determination aseortment party of clean cokingcoal and its quality difference of ash content in clean coking coal in order to urge wasbenes into producing superior clean coking cleal whichis under condition of consideration both interest waskeries and interest metallurgicai industry. It canbe used as a method in theory to make price strategies under condition of socialism maket economicfor washeries of clean coking coal
基金This paper is sponsored by“Preliminary Research on Ancient Chinese Crucible Smelting Technology”(Approval No.:51404242)“Research on Ancient Iron Reducing Silver and Lead Smelting Technology”(Approval No.:51704023)of the Youth Science Foundation of the National Natural Science Foundation of Chinathe Major Breakthrough project“Research on Ancient Chinese Crucible Smelting Technology”(Approval No.:Y621011003)of the Institute for the History of Natural Sciences,Chinese Academy of Sciences.
文摘Crucible lead smelting, a traditional technology unique to China, refers to the production of lead by reducing lead sulfide with iron metal in crucibles. In recent years, a number of crucible lead production sites of the Liao-Jin-Yuan periods(tenth–fourteenth centuries CE) have been found in northern China, providing opportunities for the study of the technology. This paper provides a comprehensive overview of this technology based on the historical and archaeological evidence, with particular emphasis on the crucibles used. Firstly, it reviews the historical records on crucible lead smelting, and introduces, in detail, the technology used in Gansu during the Qing period(1644–1911) as well as indigenous methods used in the twentieth century;secondly, it summarizes the discoveries of crucible lead smelting sites in recent years, and reconstructs the manufacturing of crucibles and the iron reduction method by analysis of the crucible and slag;finally, it expounds the technical characteristics of crucible lead smelting, and explores the origin and development of the technology.
文摘This research was performed in order to allow the study of the chemical composition influence of the coking process load on the efficiency and the quality of coke. For this reason, the coking of the following loads was realized: Atmospheric residue (RAT), vacuum Residue (RSV) and catalytic Residue of cracking (RCC). (The residues are obtained from an Algerian crude oil). As the oil residues are rich for their strongly polar composition, such as the asphaltene resins, and complex structures units (SCU), which has a role in the formation of coke, and as the dispersion of these latter improves the quality of coke, a study on the stability of aggregation was carried out by the addition of one stabilizer (oil Extract) in the coking process load, The Compounding (Extracted from/RCC oil) has been drived to the best efficiency of coke. The study consists of the influence this is characterized by the analyses Infra-red (IR) and x-ray diffraction (XRD).
文摘The aim of the present work is to remove heavy metals (copper, manganese, and zinc) from industrial wastewater of Baiji refinery using GAC (granular activated carbon). The most important factors affecting adsorption process have been studied, which are granular activated carbon thickness, H, inlet pollutant concentration, Cv, and liquid hourly space velocity, LHSV. All experiments were performed under constant temperature at 25℃ and pH = 7. The experimental apparatus was designed and constructed to enable controlling of the operating conditions. Employing five levels for each of H and LHSV and three levels for Co required 75 runs for each metal. Box-Wilson method was used to reduce the number of experiments to 15 for each metal. The results indicated that copper, manganese, and zinc can be completely removed from wastewater using activated carbon. However, breakthrough time for zinc is low. It is also shown that breakthrough time (TB) and exhaustion time (TE) are inversely proportional with pollutant concentration and LHSV (liquid hour space velocity) while it is directly proportional with the thickness of activated carbon column.
