摘要:
The present disclosure relates to a method for manufacturing core-shell particles using carbon monoxide, and more particularly, to a method for manufacturing core-shell particles, the method of which a simple and fast one-pot reaction enables particle manufacturing to reduce process costs, facilitate scale-up, change various types of core and shell metals, and form a multi-layered shell by including the steps of adsorbing carbon monoxide on a transition metal for a core, and reacting carbon monoxide adsorbed on the surface of the transition metal for the core, a metal precursor for a shell, and a solvent to form particles with a core-shell structure having a reduced metal shell layer formed on a transition metal core.
摘要:
Disclosed is a smart farm system based on salinity gradient power generation. The smart farm system includes: a farm facility in which crops are cultivated; and a salinity gradient power generator which receives a high-concentration solution including at least one selected from the group consisting of filtered waste water, food waste acid fermentation liquid, carbon dioxide absorption liquid, filtration liquefied fertilizer, and fertilizer liquid and a low-concentration solution having a lower concentration than a concentration of the high-concentration solution and generates electricity by using a concentration difference between the high-concentration solution and the low-concentration solution, and supplies a growth raw material used in growing the crops.
摘要:
The present disclosure relates to an ammonia synthesis apparatus, and more particularly, to an electrochemical ammonia synthesis apparatus using an aqueous solution or a molten liquid of an alkali metal as an electrolyte. According to one or more embodiments, when an aqueous solution or a molten liquid of an alkali metal is used as an electrolyte in an ammonia synthesis apparatus, compositions, sizes, and shapes of an electrode and an electrolyte may be easily controlled, and thus a yield of ammonia synthesis may improve.
摘要:
An embodiment provides an energy management system of a community in which a plurality of buildings, each divided into a plurality of zones, are located, the energy management system including: a community agent that is a device managing energy of the community and is configured to receive a first incentive about a Demand Response (DR) or a Frequency Regulation (FR) from a demand management device, calculate a first response capacity responding to the first incentive among a community management capacity, and transmit a second incentive to a building agent; a plurality of building agents, each of which is a device managing energy of a corresponding building and is configured to calculate a second response capacity responding to the second incentive among a building management capacity, and transmit a third incentive to a zone agent; and a plurality of zone agents, each of which is a device managing energy of a corresponding zone and is configured to calculate a third response capacity responding to the third incentive among a zone management capacity and transmit the third response capacity to a corresponding building agent, wherein each of the building agents is configured to receive third response capacities from the plurality of zone agents, and transmit a fourth response capacity obtained by adding the plurality of third response capacities and the second response capacity to the community agent, and the community agent is configured to receive fourth response capacities from the plurality of building agents, and transmit a fifth response capacity obtained by adding the plurality of fourth response capacities and the first response capacity to the demand management device.
摘要:
The present invention relates to air conditioner using light and greenhouse including the air conditioner, which is available for air cleaning such as humidity control, antibacterial activity, sterilizing, and deodorization. It will reduce costs of installment as its structure is simple and easily installed at the wall of the greenhouse, and also costs of the crop growth as the loss of the heat is minimized. Air conditioner according to the present invention comprises air conditioning enclosure having inlet and outlet for air flow into air conditioning room which is formed inside; photo-catalyst member installed in the air conditioning room and formed with photo-catalyst; moisture removing means installed in the air conditioning room for removing moisture from the air which comes through the inlet; light emitting means providing the photo-catalyst member with the light for photocatalytic reaction; and moisture discharge means installed to discharge the moisture from the air conditioning room.
摘要:
A device for a solid oxide fuel cell or a solid oxide electrolysis cell includes an integral one-piece construction of a current collector and a manifold. The device eliminates the need for a brazing or thermal bonding process for joining the manifold with the current collector, and thus makes it possible to prevent breakdown of the junction formed between the manifold and the current collector, which can lead to gas leakage through the junction, and thus can be used for a long period of time.
摘要:
The present invention relates to a combined heat and power system for greenhouse carbon dioxide enrichment, and more particularly, to a combined heat and power system for greenhouse carbon dioxide enrichment which purifies carbon dioxide from exhaust gas of the combined heat and power system generating and supplying power and heat by combusting fuel and supplies the purified carbon dioxide to a greenhouse, the combined heat and power system including: a unified pipe system 130 configured to simultaneously transmit hot water and carbon dioxide through a single pipe by dissolving the purified carbon dioxide in a heat transmission medium; a storage system 190 configured to store the carbon dioxide transmitted to demand destinations along with the hot water; and supply means 192 and 220 configured to supply the carbon dioxide transmitted to and stored in the demand destinations depending on a heat and carbon dioxide load condition of a demand destination, whereby it is possible to save the facility costs and the power costs for transmission by transmitting carbon dioxide and hot water using the unified system and improve the operation efficiency and the marketability by applying the combined heat and power system to various buildings in addition to the greenhouse 200.