The present invention provides a fine cellulose fiber sheet, of which various properties and functions such as paper making ability, solvent resistance, adhesion, functionalization agent immobilization, surface zeta potential, hydrophilicity, hydrophobicity, and air permeation resistance are finely controlled, through a process having low environmental impact. A fine cellulose fiber sheet according to the present invention fulfills all of the following requirements (1) to (3): (1) comprises fine cellulose fibers having an average fiber diameter of 2 nm or greater and 1000 nm or less; (2) the weight ratio of the fine cellulose fibers is 50 wt % or greater and 99 wt % or less; and (3) the block polyisocyanate aggregate content as a weight ratio is 1 to 100 wt % of the weight of the fine cellulose fibers.

Thermal Moisture Enhanced Gradient Strata (TMEGS) for Heat Exchangers optimizes the performance of energy flows for building heating, cooling, hot water, and industrial processes. TMEGS are temperature and moisture control layers which reduce the cost of closed loop ground heat exchangers and increase heat exchanger performance by improving energy transfer between solar, geothermal, process heat and renewable energy exchangers. Circuit optimized thermally active building structures (COTABS) configure heat exchangers and thermal energy strata for application specific requirements. TMEGS integrated with COTABS is a scalable and interoperable carbon-free, planet friendly architecture for net zero energy buildings. Embodiments include the use of recycled materials, waste tire derived aggregate, nanofluids, phase change materials, cathodic protection, and integrated microprocessor and client-server controls.

A multi-effect woven fabric (MEWF) for energy harvesting and heat management includes a combination of a predetermined number of yarns woven to each other in a repeating pattern. The yarns include a first yarn for absorbing, storing, and releasing heat energy through a phase change, a second yarn for converting heat energy from a wearer's skin, the first yarn, and a third yarn into far infrared radiation energy and radiating the far infrared radiation energy to other yarns and to the wearer's skin, the third yarn for absorbing moisture from the wearer's skin and/or ambient environment and generating heat energy through an exothermic process, and a fourth yarn with a hydrophobic property. The MEWF maintains a uniform temperature on the wearer's skin by a combination of heat energy generation, heat energy harvesting, and radiation of heat energy within the MEWF and between the MEWF and the wearer's skin.

A multi-effect woven fabric (MEWF) for energy harvesting and heat management includes a combination of a predetermined number of yarns woven to each other in a repeating pattern. The yarns include a first yarn for absorbing, storing, and releasing heat energy through a phase change, a second yarn for converting heat energy from a wearer's skin, the first yarn, and a third yarn into far infrared radiation energy and radiating the far infrared radiation energy to other yarns and to the wearer's skin, the third yarn for absorbing moisture from the wearer's skin and/or ambient environment and generating heat energy through an exothermic process, and a fourth yarn with a hydrophobic property. The MEWF maintains a uniform temperature on the wearer's skin by a combination of heat energy generation, heat energy harvesting, and radiation of heat energy within the MEWF and between the MEWF and the wearer's skin.

A heat exchanger has channels for fluid circulation. At least part of a surface of the heat exchanger is covered with a colored coating. The colored coating includes a color additive which is selected from at least one of an organic pigment, an inorganic pigment and a dye. A thermal management system, a composite material and preparation method of the composite material with the colored coating are disclosed.

A heat exchanger has channels for fluid circulation. At least part of a surface of the heat exchanger is covered with a colored coating. The colored coating includes a color additive which is selected from at least one of an organic pigment, an inorganic pigment and a dye. A thermal management system, a composite material and preparation method of the composite material with the colored coating are disclosed.

An object of the present invention is to provide a paper for total heat exchange element, which has both of the heat transfer property and the moisture permeation property and is also excellent in the gas barrier property, and the present invention relates to a paper for total heat exchange element including a base paper containing a beaten natural pulp and a hygroscopic agent applied to the base paper, wherein a ratio of a fine fraction having a fiber length of 0.05 mm or less in the beaten natural pulp is from 10 to 25%.

Provided is a positive temperature coefficient (PTC) unit for a vehicle heater. The PTC unit according to an exemplary embodiment of the present invention includes: a heat generation part which includes PTC elements; and a heat radiation part which is provided on at least one surface of the heat generation part and includes a heat radiation base material and a heat radiation film provided on at least a portion of an outer surface of the heat radiation base material to improve heat radiation performance. According to the present invention, improved heat radiation performance may be exhibited, and concurrently, heat radiation performance due to excellent durability may be exhibited for a long period of time without a structural change for increasing a specific surface area of a heat radiation part while reducing an air ventilation property, so as to improve heat radiation performance. In addition, since an air ventilation property of the heat radiation part is increased, it is possible to prevent increases in noise and power consumption due to excessive use of peripheral devices such as a fan. Furthermore, since it is possible to prevent overheating of a PTC module and overload of a PTC module control circuit, which are caused by a reduction in the air ventilation property of the heat radiation part, a high-priced and high performance control circuit may not be required, thereby implementing a PTC heater for a vehicle with reduced production costs.

A heat exchanger having an integrated support structure particularly suited for thermal management of heat generating components such as battery thermal management applications or thermal management of other electronic components is disclosed. The heat exchanger includes a top plate and a base tray defining a plurality of fluid channels that extend between an inlet manifold area and an outlet manifold area. The top plate has a first side defining a primary heat transfer area and a second side for effecting a sealing relationship between the top plate and the base tray. In some instances, the top plate includes a thermally conductive material while the base tray includes a non-thermally conductive material. In some instances the base tray cooperates with a cover portion to define an enclosure for housing the heat generating components.

A cooling module has a heat generating body, a heat exchanger made of metal, and an insulating plate. The heat generating body has a heat dissipating surface. The heat exchanger has cooling surface facing the heat dissipating surface. The insulating plate has a first surface and a second surface. The insulating plate is interposed between the heat dissipating surface and the cooling surface on a condition that the insulating plate faces the heat dissipating surface and that the second surface faces the cooling surface. The insulating plate and the cooling surface are joined to be one body by a joining material. The heat dissipating surface and the insulating plate are in close contact with each other through an elastic member. The heat dissipating surface and the cooling surface are thermally connected to each other through the joining material, the insulating plate, and the elastic member.