会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明申请
    • BREWING PROCESS AND BREWERY INSTALLATIONS
    • 酿造工艺和啤酒厂
    • WO2009062597A2
    • 2009-05-22
    • PCT/EP2008009102
    • 2008-10-28
    • KRONES AGWASMUHT KLAUSSTUMPE CORNELIA
    • WASMUHT KLAUSSTUMPE CORNELIA
    • F24S90/00
    • C12C13/00C12C7/22F24J2/42F28D20/00F28D20/0039F28D20/028F28D2020/006F28D2020/0069F28F27/00Y02E60/142Y02E60/145
    • The present invention relates to a brewing process which comprises the steps: taking off a fluid having a starting temperature from a heat store; feeding the fluid to a plurality of heat consumers for releasing heat; and returning to the heat store the fluid which has a final temperature. The invention additionally relates to a brewery installation which comprises a heat store which receives a fluid, a primary circuit of the fluid which is connected to the heat store, a flow controller unit which is equipped for controlling the flow of the fluid in the installation, and a plurality of heat consumers each of which is connected to the primary circuit for releasing heat. It is an object of the present invention to provide a brewing process and a brewery installation having improved efficiency. This object is achieved according to the invention by a brewing process which is characterized in that the final temperature of the fluid which flows out of the respective heat consumers is measured and the return of the fluid is controlled as a function of the measured final temperature. With respect to the brewery installation, this object is achieved according to the present invention in that, downstream of a heat consumer, at least one temperature sensor is provided for measuring the final temperature of the fluid which flows out of the heat consumer, wherein the temperature sensor is coupled to the flow controller unit in such a manner that the fluid flow can be controlled as a function of the measured final temperature.
    • 本发明涉及一种酿造工艺,包括以下步骤:抽出具有储热的出口温度的流体; 将流体供应到多个热消耗用于释放热的; 包括并返回具有温度到蓄热器的残余流体。 本发明还涉及一种酿造装置,具有流体接收热量存储,其被连接至所述蓄热器,其被配置为调节流体在系统中流动,并且包括多个热消耗的流量控制单元的流体的初级电路中,每个 被连接到用于释放热的主电路。 本发明提供一种酿造工艺和具有改善的效率的啤酒厂植物的对象。 此目的通过一种酿造工艺,其特征在于,从相应的热消费者流体检测到的流出物和所述流体的返回的残留温度根据所检测的残留的温度控制来实现的。 关于啤酒厂安装,该目的是根据本发明在热消费者的下游实现,温度传感器被设置用于检测从热消耗流体流出物的残余温度至少,其特征在于,与所述流量控制部,所述温度传感器联接,使得所述函数的所述流体流 是可控的残留检测温度。
    • 7. 发明申请
    • DEVICE FOR CONCENTRATING OPTICAL RADIATION
    • 用于集中光辐射的装置
    • WO99004296A1
    • 1999-01-28
    • PCT/US1998/014774
    • 1998-07-16
    • F24S23/00F24S90/00G02B5/32G03H1/02G03H1/10G03H1/28H01L31/052G03H1/00H01L25/00H01L31/00
    • G02B5/32F24S23/00H01L31/0543H01L31/0547Y02B10/10Y02B10/20Y02E10/44Y02E10/52
    • A holographic planar concentrator (HPC) (10) for collecting and concentrating optical radiation (16, 16', 16") is provided. The holographic planar concentrator (10) comprises a planar highly transparent plate (12) and at least one multiplexed holographic optical film (14) mounted on a surface (12a) thereof. The multiplexed holographic optical film (14) has recorded therein a plurality of diffractive structures (14, 114, 214) having one or more regions which are angularly and spectrally multiplexed. Two or more of the regions (14, 114, 214) may be configured to provide spatial multiplexing. The HPC (10) is fabricated by: (a) recording the plurality of diffractive structures in the multiplexed holographic optical film (14) employing angular, spectral, and, optionally, spatial multiplexing techniques; and (b) mounting the multiplexed holographic optical film (14) on one surface (12a) of the highly transparent plate (12). The recording of the plurality of diffractive structures is tailored to the intended orientation of the holographic planar concentrator (10) to solar energy (16, 16', 16"). The HPC (10) is mounted in the intended orientation for collecting solar energy (16, 16', 16") and at least one solar energy-collecting device (30, 32, 132) is mounted along at least one edge (12', 112', 212') of the holographic planar concentrator (10). Examples of suitable solar energy-collecting devices (30, 32, 132) include photovoltaic cells (30) and fiber optic lightguides (32, 132) for transmitting collected light into an interior of a building for illumination purposes and for transmitting collected solar radiation (16, 16', 16") into a hot water tank (36) for heating. The HPC (10) permits efficient collection of solar energy (16, 16', 16") without expensive requirements, while minimizing energy losses.
    • 提供了一种用于收集和集中光学辐射(16,16',16“)的全息平面聚焦器(HPC)(10),全息平面聚光器(10)包括平面高透明板(12)和至少一个多路复用全息图 多重全息光学膜(14)在其中记录有多个具有一个或多个角度和光谱复用的区域的衍射结构(14,114,214),两个 所述HPC(10)通过以下步骤制造:(a)使用有角度的方式在所述复用全息光学膜(14)中记录所述多个衍射结构,其中,所述多个全息光学膜(14,114,214) 光谱和任选的空间复用技术;以及(b)将多路复用的全息光学膜(14)安装在高透明板(12)的一个表面(12a)上,多个衍射结构的记录被定制 达到全息平面聚光器(10)对太阳能(16,16',16“)的预期取向。 HPC(10)以预定方向安装以收集太阳能(16,16',16“),并且沿着至少一个边缘(12')安装至少一个太阳能收集装置(30,32,132) 合适的太阳能收集装置(30,32,132)的实例包括光伏电池(30)和用于透射收集的光的光纤光导(32,132) 进入用于照明目的的建筑物的内部并用于将收集的太阳辐射(16,16',16“)发送到用于加热的热水箱(36)中。 HPC(10)允许有效收集太阳能(16,16',16“),而不需要昂贵的要求,同时最大限度地减少能量损失。