Abstract: Methods and devices for long-duration electricity storage using low-cost thermal energy storage and high-efficiency power cycle, are disclosed. In some embodiments it has the potential for superior long-duration, low-cost energy storage.
Type:
Grant
Filed:
September 24, 2019
Date of Patent:
November 23, 2021
Assignee:
Alliance for Sustainable Energy, LLC
Inventors:
Zhiwen Ma, Patrick Gordon Davenport, Janna Martinek
Abstract: A supply chute, and a system and a method for supplying sinter material from a sinter belt to a sinter cooler (26). A flow of the sinter material (16) is input into the supply chute (1). The flow of sinter material (16) after being input is concentrated by a device in the chute. This means that the flow is remixed for more uniform grain size distribution. The flow is thereafter widened by a widening device in the chute. Then the widened flow of sinter material (16), optionally after making the movement direction of the flow of sinter material (16) uniform, the flow is passed through a segregation device (8,25) and is there segregated, which means that a grain size distribution across the thickness and across the width of the flow is made more uniform. This occurs after the widened flow of sinter material moves in the direction of the output region (5).
Type:
Grant
Filed:
February 24, 2014
Date of Patent:
November 13, 2018
Assignee:
PRIMETALS TECHNOLOGIES AUSTRIA GMBH
Inventors:
Michaela Boeberl, Edmund Fehringer, Stephan Hattinger, Stefan List
Abstract: A method and apparatus for impingement of fluid onto a moving surface. The apparatus includes an asymmetric slot nozzle having an opening formed between an upstream wall and a downstream wall. The nozzle is disposed generally adjacent the surface onto which the fluid is to be impinged forming an impingement distance between each of the walls of the nozzle and the surface. The impingement distance of the upstream wall is greater than the impingement distance of the downstream wall such that at least a portion of the fluid is delivered through the nozzle in a direction that is counter to the machine direction.
Abstract: In a process for the coating treatment of hot, non-homogeneous bulk material using a grate cooler having a conveyor grate for conveying the bulk material, separation of the bulk material is effected in accordance with grain fractions which are subjected to further treatment separately. All the bulk material which is delivered on to the conveyor grate is pre-cooled in a common bulk material bed to a given temperature. The material is graded into a plurality of grain fractions downstream of the conveyor grate, and at least individual grain fractions are separately post-cooled.
Abstract: A chicken manure drying system is placed in a hen house. A platform of the system is disposed underneath a plurality of chicken cages. As chicken manure drops from the chicken cages, it collects on the platform. Drying fans of the system are disposed adjacent to the platform. The drying fans provide a constant flow of air over the chicken manure so as to dry the chicken manure. The plowing apparatus of the system includes a plowing device disposed over the platform. The plowing device is periodically moved across the platform in order to plow the chicken manure. The plowing of the chicken manure exposes more of the chicken manure to air. This exposure facilitates the comprehensive and expeditious drying of the chicken manure. After the chicken manure has been sufficiently dried to serve as fertilizer, the chicken manure is conveyed to a collection site.
Abstract: A counter flow cooler in which feed material is fed into the top inlet of the cooler and dispersed into a plurality of cooling chambers. At the bottom of each cooling chamber is a discharge grid which will discharge feed material uniformly over the area of the cooling chamber. The discharge rate of this discharge grid can be adjusted to the desired throughput of the cooler. Air is drawn through the bottom of the discharge grid and passes up through the feed material in a counter flow manner. That is, while the product is passing down through the cooler, the air is passing up through the feed material, carrying away heat and possibly. A feed controller is used to selectively direct feed material into the plurality of cooling chambers. When a second batch of feed material is to be introduced into the cooler, feed material to the first cooling chamber is stopped and all the feed material is directed into the second cooling chamber.