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公开(公告)号:US5261390A
公开(公告)日:1993-11-16
申请号:US671864
申请日:1991-04-01
申请人: John B. Lasich
发明人: John B. Lasich
CPC分类号: F24J2/50 , F24J2/30 , F24J2/32 , F24J2002/4605 , Y02E10/44
摘要: A system for heating a fluid (5) conveyed or contained in process equipment (7) comprises a layer of transparent thermal insulation (9) which partly covers the process equipment so that a section (13) is exposed to solar radiation and thus is heated by the solar radiation and thereby heats the fluid (5). The "window" defines a form of thermal diode concentrator in that the surface area of the "window" is great than that of the exposed section (13) of the process equipment (7) and thus the "window" in effect concentrates the solar radiation onto the exposed section (13) of the process equipment, and the transparent thermal insulation (9), albeit transparent, minimises heat loss from the fluid (5).
摘要翻译: PCT No.PCT / AU89 / 00424 Sec。 371日期1991年4月1日 102(e)日期1991年4月1日PCT提交1989年10月3日PCT公布。 公开号WO90 / 04143 日本1990年04月19日。用于加热在工艺设备(7)中输送或包含的流体(5)的系统包括透明隔热层(9),其部分地覆盖处理设备,使得部分(13)暴露 由太阳辐射加热,从而加热流体(5)。 “窗口”定义了一种形式的热二极管浓缩器,因为“窗口”的表面积大于工艺设备(7)的暴露部分(13)的表面积,因此“窗口”实际上将太阳能 辐射到工艺设备的暴露部分(13)上,透明隔热层(9)尽管是透明的,但最小化了流体(5)的热损失。
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公开(公告)号:US20130291858A1
公开(公告)日:2013-11-07
申请号:US13809858
申请日:2011-07-12
申请人: John B. Lasich
发明人: John B. Lasich
CPC分类号: F24S10/70 , F24H9/0015 , F24S10/60 , F24S23/70 , F24S40/50 , F24S50/80 , F24S70/65 , F24S80/45 , F24S80/50 , F24S80/60 , F24S2080/03 , Y02E10/44
摘要: A system for heating a fluid conveyed or contained in a pipe or other process equipment by solar energy is disclosed. The system includes passive and active control methods to control the temperature of the fluid within a selected temperature range. The passive methods use the natural properties of selected materials for the system and the geometry and the orientation of the materials to control the temperature range. The active methods uses one or more than one control mechanism for changing the ratio of energy gain and heat loss at any point in time during a day and between days and across seasons, with these mechanisms including mechanisms to control energy transfer in and heat transfer out of the fluid.
摘要翻译: 公开了一种用于通过太阳能加热输送或容纳在管道或其它工艺设备中的流体的系统。 该系统包括被动和主动的控制方法,以在选定的温度范围内控制流体的温度。 被动方法使用系统中所选材料的自然特性和材料的几何形状和取向来控制温度范围。 主动方法使用一个或多个控制机制来改变在一天和几天之间的任何时间点的能量增益和热损失的比率,这些机制包括控制能量转移和热传递的机制 的流体。
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