A display device includes a first substrate having a first surface and a plurality of LED elements mounted on the first surface of the first substrate. Each of the plurality of LED elements includes a main body portion having a second surface facing the first surface of the first substrate and a third surface on a side opposite to the second surface, an anode electrode and a cathode electrode provided on the second surface of the main body portion, and an organic film bonded to the third surface of the main body portion. The organic film has a fourth surface facing and bonded to the third surface and a fifth surface on a side opposite to the fourth surface. The fifth surface of the organic film has a plurality of depressions.

The present inventive concept relates to an RGB micro-light-emitting diode having a vertically-stacked structure with corner mesa contact structures, and a manufacturing method thereof. The RGB micro-light-emitting diode having a vertically-stacked structure with corner mesa contact structures includes an n-type contact electrode layer, a first light-emitting structure, a common electrode layer, a second light-emitting structure, a tunnel junction layer, and a third light-emitting structure, which are sequentially stacked on a substrate. The RGB micro-light-emitting diode with a reduced unit area can be easily manufactured by forming the corner mesa contact structure on each of the n-type contact electrode layers by etching the vertically-stacked structure, forming contact structures on the n-type contact electrode layers, followed by electrical connection.

The present inventive concept relates to a stacked-RGB micro-light-emitting diode having corner mesa contact structures and a manufacturing method thereof. The stacked-RGB micro-light-emitting diode having corner mesa contact structures includes a first light-emitting structure, a first tunnel junction layer, a first anode layer, a second anode layer, a second tunnel junction layer, a second light-emitting structure, and a third light-emitting structure, which are sequentially stacked on a substrate. According to the present inventive concept, it is possible to increase the lifespan of the micro-light-emitting diode by forming the corner mesa contact structure on each of the light-emitting structures by etching a vertically-stacked structure.

A rotary hearth furnace includes a unit that supplies an agglomerate onto a hearth of the rotary hearth furnace, a unit that discharges a heated substance which has been heated in the rotary hearth furnace to the outside of the furnace, and a unit that discharges an exhaust gas in the rotary hearth furnace to the outside of the furnace. The rotary hearth furnace has a heating section and a non-heating section. The unit that discharges an exhaust gas to the outside of the furnace is provided in the non-heating section. A unit that takes an outside air into the furnace is provided in the non-heating section and on an upstream side in a flow direction of the exhaust gas from the unit that discharges exhaust gas to the outside of the furnace.

A process for removing sulphur dioxide from the gaseous effluent of a smelter furnace comprising the steps of: providing the gaseous effluent from a smelter; separating the sulphur dioxide from the gaseous effluent to provide concentrated sulphur dioxide and effluent for discharge into the atmosphere; mixing the concentrated sulphur dioxide with a fuel gas; heating the mixture such that the concentrated sulphur dioxide and fuel gas react to form a gaseous product mixture comprising sulphur and hydrogen sulphide; and removing the majority of preferably substantially all of the sulphur and hydrogen sulphide from the gaseous product mixture; wherein the remaining gaseous product mixture is incinerated before being vented into the atmosphere or is recycled into the smelter furnace.

A cooling system includes a sensor and a cooling conveyor. The sensor measures a dust characteristic of dust discharged from a dust cyclone of a decoating system. The cooling conveyor receives the dust from the dust cyclone and cools the dust at a cooling rate, and the cooling rate may be controlled based on the measured dust characteristic. A method of cooling dust from a dust cyclone of a decoating system with a cooling system includes measuring a dust characteristic of the dust discharged from the dust cyclone and into a cooling conveyor of the cooling system. The method also includes advancing the dust along the cooling conveyor and cooling the dust at a cooling rate based on the measured dust characteristic.

In a method and a device for operating a smelting reduction process, at least part of an export gas from a blast furnace or a reduction unit is thermally utilized in a gas turbine and the exhaust gas of this gas turbine is used in a waste heat steam generator to generate steam. The remaining part of the export gas is fed to a CO.sub.2 separation apparatus, the tail gas thereby obtained being fed to a waste heat steam generator and burned for additional steam generation. The combustible components of the tail gas are sent for thermal utilization in a steam generator, so that the overall energy balance of the thermal use of the export gas is improved. In addition, a further part of the export gas is qualitatively improved by the CO.sub.2 separation apparatus, so as to generate a high-quality reduction gas which can be supplied for metallurgical use.

Industrial cars for holding high-temperature materials, such as flat push hot cars for transporting hot coke and deposits, and associated systems and methods are disclosed herein. In some embodiments, an industrial car can include an at least partially enclosed hot box with a base and sidewalls, and one or more of the base or sidewalls can be covered by surface plates. The surface plates can be arranged in a floating configuration with gaps therebetween, such that the surface plates can move relative to one another and thermally expand without exerting excessive compressive force against adjacent surface plates. In some embodiments, the hot box can also include a roof with a first non-curved member and a second non-curved member abutting the first non-curved member. In some embodiments, the industrial car can include one or more emission ducts to remove dust and exhaust from within and around the industrial car.

A method of using an exhaust structure includes receiving a gas at an intake section, the intake section has a first inner diameter at a first position. The method includes passing the gas from the intake section to a piping section, wherein the piping section has the first inner diameter in a central region of the piping section, and the first position is farthest from the central region. The method includes outputting the gas from an output section connected to the piping section, wherein the output section comprises a curved portion configured to change a direction of the gas, and the output section has the first inner diameter at a position of the output section farthest from the central region. The method includes resisting turbulence and condensation during propagation of the gas through the piping section using a plurality of smoothing layers on an inner diameter of the piping section.

A renewable energy powered thermal processing system is formed from a renewable energy source operably connected to an inverter via a charge controller. In one embodiment, a solar renewable energy source is operably connected to the inverter via a solar charge controller. The inverter is connected to a renewable energy storage device and further conditions the current for the thermal processing power supply, which then delivers energy to a thermal processing unit. A supplemental renewable energy source, such as wind, may further be operably connected to the inverter via a supplemental charge controller. As such, the thermal processing unit can be powered solely by renewable energy directly or stored renewable energy within the renewable energy storage device to provide a standalone, grid-independent renewable energy powered thermal processing system. Optionally, a grid tie may further selectively connect the system to an external power grid as a backup source of energy.