Abstract: A method and a system for seismic data processing are provided. The method includes: determining target seismic data as a seismic trace near well; determining a synthetic seismic record of a target calibration object in a time domain; determining a size of a time window based on the seismic trace near well and the synthetic seismic record; generating a truncated synthetic seismic record and a truncated seismic trace near well; calculating an amount of time deviation between a geological stratification in the time domain and a seismic horizon; determining at least one correlation between the truncated synthetic seismic record and the truncated seismic trace near well under at least one time shift; obtaining a time shift corresponding to a maximum correlation as a global time shift; and performing preliminary alignment on the synthetic seismic record through the global time shift.

Abstract: A protective apparatus configured to protect electrode plates includes a support assembly configured to support a roll around which the electrode plates are wound, and a damping assembly. A top of the damping assembly is fixed to a bottom of the support assembly, and a bottom of the damping assembly is configured to be fixed to a base plate of a transport apparatus.

Abstract: A storage and transportation device, which relates to the technical field of storage and transportation apparatuses are disclosed. The storage and transportation device comprises a cover, a supporting plate and a sealant. The supporting plate covers an opening of the cover to form a space for accommodating an item to be transported. The storage and transportation device further comprises a first sealant groove and a second sealant groove arranged at a sealed junction between the cover and the supporting plate, the sealant is contained in each of the first sealant groove and the second sealant groove, and the two parts of the sealant are connected.

Abstract: A storage and transportation device, which relates to the technical field of storage and transportation apparatuses are disclosed. The storage and transportation device comprises a cover, a supporting plate and a sealant. The supporting plate covers an opening of the cover to form a space for accommodating an item to be transported. The storage and transportation device further comprises a first sealant groove and a second sealant groove arranged at a sealed junction between the cover and the supporting plate, the sealant is contained in each of the first sealant groove and the second sealant groove, and the two parts of the sealant are connected.

Abstract: A protective apparatus configured to protect electrode plates includes a support assembly configured to support a roll around which the electrode plates are wound, and a damping assembly. A top of the damping assembly is fixed to a bottom of the support assembly, and a bottom of the damping assembly is configured to be fixed to a base plate of a transport apparatus.

Abstract: Lithium batteries, electrolytes configured for use in lithium batteries, and methods of preparing stable lithium batteries are provided. The electrolyte includes a lithium ion source, an ether-based solvent, and an inorganic salt represented by the formula MA, wherein M is selected from the group consisting of Li+, Na+, K+, Ca2+, Mg2+, and Al3+, and A is selected from the group consisting of F?, Cl?, Br?, I?, NO3?, SO42?, CO32?, and PO43?. In this regard, the inorganic salt provides coordination cores for lithium ion aggregation.

Abstract: The present disclosure provides for a lithium-sulfur battery with a dual blocking layer between the anode and cathode, providing for high storage capacity and improved performance.

Abstract: Prelithiation of a battery anode carried out using controlled lithium metal vapor deposition. Lithium metal can be avoided in the final battery. This prelithiated electrode is used as potential anode for Li-ion or high energy Li—S battery. The prelithiation of lithium metal onto or into the anode reduces hazardous risk, is cost effective, and improves the overall capacity. The battery containing such an anode exhibits remarkably high specific capacity and a long cycle life with excellent reversibility.

Abstract: A battery comprising: at least one cathode, at least one anode, at least one battery separator, and at least one electrolyte disposed in the separator, wherein the anode is a lithium metal or lithium alloy anode or an anode adapted for intercalation of lithium ion, wherein the cathode comprises material adapted for reversible lithium extraction from and insertion into the cathode, and wherein the separator comprises at least one porous, electronically conductive layer and at least one insulating layer, and wherein the electrolyte comprises at least one polysulfide anion. The battery provides for high energy density and capacity. A redox species is introduced into the electrolyte which creates a hybrid battery. Sodium metal and sodium-ion batteries also provided.

Abstract: The present disclosure provides for a lithium-sulfur battery with a dual blocking layer between the anode and cathode, providing for high storage capacity and improved performance.

Abstract: Prelithiation of a battery anode carried out using controlled lithium metal vapor deposition. Lithium metal can be avoided in the final battery. This prelithiated electrode is used as potential anode for Li-ion or high energy Li—S battery. The prelithiation of lithium metal onto or into the anode reduces hazardous risk, is cost effective, and improves the overall capacity. The battery containing such an anode exhibits remarkably high specific capacity and a long cycle life with excellent reversibility.

Abstract: A method for manufacturing a reconstituted stone raw material by using a molten slag includes: controlling a temperature of the molten slag at 1400° C.-1500° C., and performing a cast-molding process on the molten slag; and maintaining the cast-molded slag at a temperature of 800° C.-1000° C. for 1-5 hours in a non-reducing atmosphere, and then gradually cooling the cast-molded slag to a room temperature within 2-5 hours to obtain the reconstituted stone raw material. An energy-saving and efficient method for comprehensively utilizing the blast furnace slag is provided. The produced reconstituted stone raw material has such characteristics as stable color quality, abrasion resistance, pressure resistance, strong adhesiveness, low coefficient of expansion and low shrinkage ratio.

Abstract: An inverter cell for a ring oscillator. The inverter cell includes a first transistor, a second transistor, a first resistor, a second resistor, and a capacitor. A voltage input terminal is connected to gates of the first transistor and the second transistor. A voltage output terminal is connected drains of the first transistor and the second transistor. The first resistor is connected to the source of the first transistor and a first voltage potential. The second resistor is connected to the source of the second transistor and a second voltage potential. The capacitor has a first end directly connected to the source of the first transistor and the first end of the first resistor and a second end directly connected to the source of the second transistor and the first end of the second resistor.

Abstract: A method for manufacturing a foam material by using a molten slag includes: introducing the molten slag maintained at 1400° C.-1500° C. into a pool for preserving heat, and adding a viscosity modifier and/or a color modifier to the molten slag to adjust a viscosity and/or a color a product manufactured. The molten slag is discharged into a foaming pour while adding a foaming agent to the molten slag, while controlling the foam and mold at 1250° C.-1400° C. The foamed and molded slag is maintained at 800° C.-1000° C. for 20-30 minutes in a non-reducing atmosphere, and then naturally cooled to a room temperature to obtain the foam material. The produced inorganic nonmetal foam material and products thereof have such characteristics as stable color quality, abrasion resistance, pressure resistance, small thermal conductivity, small shrinkage ratio, and excellent sound absorption, adsorption and filtering performances.

Abstract: A method for manufacturing a plate inorganic nonmetal material by using a molten slag by introducing the molten slag into a pool for preserving heat and modifying, wherein a temperature of the molten slag is 1450° C.-1600° C., and modifying a viscosity and/or a color of the molten slag according to requirements of the product manufactured. The modified molten slag is introduced into a float process furnace using tin or tin alloy carrier forming a plate of inorganic nonmetal material which is discharged at 1000-1300° C. The plate is maintained at 600° C.-900° C. for 0.5-2 hours in a non-reducing atmosphere, and then cooled to a room temperature within 1-2 hours. An energy-saving and efficient method for comprehensively utilizing the blast furnace slag is provided. The produced plate inorganic nonmetal material has such characteristics as stable color quality, abrasion resistance, pressure resistance, strong adhesiveness, low coefficient of expansion and low shrinkage ratio.

Abstract: An inverter cell for a ring oscillator. The inverter cell includes a first transistor, a second transistor, a first resistor, a second resistor, and a capacitor. A voltage input terminal is connected to gates of the first transistor and the second transistor. A voltage output terminal is connected drains of the first transistor and the second transistor. The first resistor is connected to the source of the first transistor and a first voltage potential. The second resistor is connected to the source of the second transistor and a second voltage potential. The capacitor has a first end directly connected to the source of the first transistor and the first end of the first resistor and a second end directly connected to the source of the second transistor and the first end of the second resistor.

Abstract: Disclosed is an inverter cell design comprising first and second transistors and first and second resistors. In disclosed embodiments, the first resistor is connected to a source of the first transistor and the second resistor is connected to a source of the second transistor. The first and second resistors are configured for connection to respective first and second voltage potentials. The inverter cells may be configured in a ring oscillator. A crystal oscillator may comprise an inverter cell according to the present disclosure.

Abstract: A method for manufacturing a reconstituted stone raw material by using a molten slag includes: controlling a temperature of the molten slag at 1400° C.-1500° C., and performing a cast-molding process on the molten slag; and maintaining the cast-molded slag at a temperature of 800° C.-1000° C. for 1-5 hours in a non-reducing atmosphere, and then gradually cooling the cast-molded slag to a room temperature within 2-5 hours to obtain the reconstituted stone raw material. An energy-saving and efficient method for comprehensively utilizing the blast furnace slag is provided. The produced reconstituted stone raw material has such characteristics as stable color quality, abrasion resistance, pressure resistance, strong adhesiveness, low coefficient of expansion and low shrinkage ratio.

Abstract: A method for manufacturing a plate inorganic nonmetal material by using a molten slag by introducing the molten slag into a pool for preserving heat and modifying, wherein a temperature of the molten slag is 1450° C.-1600° C., and modifying a viscosity and/or a color of the molten slag according to requirements of the product manufactured. The modified molten slag is introduced into a float process furnace using tin or tin alloy carrier forming a plate of inorganic nonmetal material which is discharged at 1000-1300° C. The plate is maintained at 600° C.-900° C. for 0.5-2 hours in a non-reducing atmosphere, and then cooled to a room temperature within 1-2 hours. An energy-saving and efficient method for comprehensively utilizing the blast furnace slag is provided. The produced plate inorganic nonmetal material has such characteristics as stable color quality, abrasion resistance, pressure resistance, strong adhesiveness, low coefficient of expansion and low shrinkage ratio.

Abstract: A method for manufacturing a foam material by using a molten slag includes: introducing the molten slag maintained at 1400° C.-1500° C. into a pool for preserving heat, and adding a viscosity modifier and/or a color modifier to the molten slag to adjust a viscosity and/or a color a product manufactured. The molten slag is discharged into a foaming pour while adding a foaming agent to the molten slag, while controlling the foam and mold at 1250° C.-1400° C. The foamed and molded slag is maintained at 800° C.-1000° C. for 20-30 minutes in a non-reducing atmosphere, and then naturally cooled to a room temperature to obtain the foam material. The produced inorganic nonmetal foam material and products thereof have such characteristics as stable color quality, abrasion resistance, pressure resistance, small thermal conductivity, small shrinkage ratio, and excellent sound absorption, adsorption and filtering performances.