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    • 4. 发明公开
    • PROCESS OF OPERATING THE AIR CONDITIONING SYSTEM OF A CAB OF A VEHICLE
    • 操作车辆驾驶室空调系统的过程
    • EP3318434A1
    • 2018-05-09
    • EP16306456.1
    • 2016-11-07
    • CNH Industrial France S.A.S.
    • The designation of the inventor has not yet been filed
    • B60H3/06B60H1/00B60S1/46B01D46/00B01D65/10G01N15/08
    • B60H3/0641B01D46/0086B60H1/00378B60H2003/0683B60S1/46G01N15/08G01N2015/084
    • Process of operating the air conditioning system (5) of a cab (1) of a vehicle, said air-conditioning system comprising: a circuit (9) for supplying said cab with air coming at least partially from the exterior of said cab; a blowing device (10) for blowing an air flow inside said circuit; filtration means (11a, 11b) for removing pollutants from the air blown into the cab (1) through said circuit; said process comprising a regular procedure wherein the air-conditioning system (5) is operated to blow the air supplied by said circuit, said process comprising a test of the efficiency of the filtration means (11a, 11b), wherein said test provides for: spraying an identified fluid upstream of the filtration means (11a, 11b) whilst the blowing device (10) is operated to blow an air flow inside the circuit (9); monitoring the air flow supplied by the circuit (9) at a location (22) downstream of the filtration means (11a, 11b) for detection of the possible presence of the sprayed fluid by means of at least one appropriate sensor provided at said downstream location; and providing by means of said sensor a signal representative of the efficiency of said filtration means upon the detection of such a presence.
    • 操作车辆驾驶室(1)的空调系统(5)的过程,所述空调系统包括:用于向所述驾驶室供应至少部分来自所述驾驶室外部的空气的回路(9) 吹风装置(10),用于吹送所述回路内的气流; 过滤装置(11a,11b),用于通过所述回路从吹入驾驶室(1)的空气中去除污染物; 所述方法包括常规程序,其中操作空调系统(5)以吹送由所述回路供应的空气,所述方法包括过滤装置(11a,11b)效率的测试,其中所述测试提供: 在所述吹风装置(10)被操作以吹送所述回路(9)内的空气流的同时,在所述过滤装置(11a,11b)的上游喷射所识别的流体; 在过滤装置(11a,11b)下游的位置(22)处监测由回路(9)供应的空气流,用于借助设置在所述下游位置处的至少一个适当的传感器检测喷射流体的可能存在 ; 以及借助于所述传感器提供代表所述过滤装置在检测到这种存在时的效率的信号。
    • 5. 发明公开
    • BLUTBEHANDLUNGSVORRICHTUNG MIT EINER FUNKTIONSEINHEIT ZUR DURCHFÜHRUNG DER BLUTBEHANDLUNG UND VERFAHREN ZUR ÜBERPRÜFUNG DER FUNKTIONSFÄHIGKEIT UND/ODER DES BETRIEBSZUSTANDES DER FUNKTIONSEINHEIT
    • 与功能单元具体实施血液处理和方法用于检查功能和/或功能单元的工作状态血液处理装置
    • EP3177337A1
    • 2017-06-14
    • EP15739592.2
    • 2015-07-21
    • Fresenius Medical Care Deutschland GmbH
    • GERLACH, DanielHÄCKER, JürgenNOACK, JoachimSCHEUNERT, Peter
    • A61M1/16A61M1/36
    • A61M1/1692A61M1/3627A61M2205/121A61M2205/122A61M2205/14A61M2205/15A61M2205/18A61M2205/3306A61M2205/50A61M2205/705A61M2205/7536A61M2209/084G01M3/38G01N15/08G01N2015/084G01N2015/0846G08B21/02
    • The invention relates to a blood treatment device comprising a fastening unit (7) for fastening a functional unit (1), which is provided for single use, for carrying out the blood treatment. The blood treatment device according to the invention is distinguished by a monitoring unit (8) for monitoring the functionality and/or the operating state of the functional unit (1), which comprises at least one light transmitter (17A, 18A) and at least one light receiver (17B, 18B). In the monitoring unit (8) according to the invention, the light transmitter and light receiver are arranged on one side of the functional unit (1). Arranging the light transmitter and light receiver on the same side offers the advantage that the monitoring unit (8) can be integrated into the fastening unit (7) of the blood treatment device without major structural changes. Monitoring of the functional unit is based on an optical measurement method, in which the light reflected at a part of the functional unit (1) or at a part of the fastening unit (7) is detected. A computation and evaluation unit (13) is configured in such a way that a faulty state and/or a specific operating state of the functional unit is deduced from the intensity of the light falling onto the functional unit (1) and of the light reflected at the functional unit or fastening unit.
    • 本发明涉及血液处理装置,包括用于紧固被设置用于单次使用的功能单元(1)所有,用于进行血液处理的紧固单元(7)。 血液处理装置雅丁的发明是由监视单元,用于监视所述功能和/或(1)的功能单元,其包括至少一个光发射器的工作状态(17A,18A)和至少(8)来区分 一个光接收器(17B,18B)。 在监测单元(8)雅鼎的发明中,光发射器和光接收器被布置在(1)中的官能单元的一侧。 布置在同一侧上的光发射器和光接收器的优点并监测单元(8)可以被集成到所述紧固单元的血液处理装置(7)的无重大的结构变化。 该功能单元的监视是基于以光学测量方法,其中,所述反射的光在所述功能单元(1)的一部分,或者在(7)检测到所述紧固单元的一部分。 的一种计算和评估单元(13)在寻求一种方式配置做了故障状态和/或所述功能单元的一个特定操作状态从落到功能单元的光的强度推导(1)和光的反射 在该功能单元或固定单元。
    • 7. 发明公开
    • TIGHT GAS FORMATION PRESSURE DETERMINATION METHOD
    • VERFAHREN ZUR DRUCKBESTIMMUNG BEI TIGHT-GAS-LAGERSTÄTTEN
    • EP3068972A1
    • 2016-09-21
    • EP15737517.1
    • 2015-01-13
    • Halliburton Energy Services, Inc.
    • WESTACOTT, DonaldQUINTERO, Luis, F.
    • E21B49/02E21B47/06
    • E21B49/06E21B25/08E21B41/005E21B43/16G01N15/08G01N33/241
    • A disclosed effective porosity determination method for tight gas formations includes: obtaining a core sample sealed in a pressure-maintaining core vault during transport out of the borehole; coupling the core vault to a collection chamber; based at least in part on measured pressure, temperature, and fluid volumes in the collection chamber, deriving the number of moles of gas retrieved with the core sample; and combining the number of moles with a downhole pressure, a downhole temperature, and a downhole core sample volume to determine an effective porosity of the tight gas formation. A system embodiment includes: a coring tool having a core vault with a seal to provide pressure-preserved transport of a core sample from a tight gas formation; a collection chamber that attaches to the core vault to measure volumes of fluids and gas; and a processing unit that responsively determines an effective porosity of the tight gas formation.
    • 公开的用于紧密气体组合的有效孔隙度确定方法包括:在运送出钻孔之前获得密封在保压芯保护层中的芯样品; 将核心保险库耦合到收集室; 至少部分地基于所述收集室中测量的压力,温度和流体体积,导出用所述芯样品回收的气体的摩尔数; 以及将摩尔数与井下压力,井下温度和井下核心样品体积组合以确定紧密气体形成的有效孔隙率。 系统实施例包括:取芯工具,其具有具有密封件的芯拱顶,以提供来自紧密气体组织的芯样品的压力保持的输送; 一个收集室,连接到核心库以测量流体和气体的体积; 以及响应地确定紧密气体形成的有效孔隙率的处理单元。