公开(公告)号：WO2021185892A1

公开(公告)日：2021-09-23

申请号：PCT/EP2021/056792

申请日：2021-03-17

Applicant: TRINAMIX GMBH

Inventor： LUNGENSCHMIED, Christoph ,  SCHMIDT, Felix ,  LOVRINCIC, Robert ,  KETTNER, Michel Valentin ,  KAELBLEIN, Daniel ,  BRILL, Jochen ,  ROSENKRANZ, Thomas

IPC: H04L29/08

Abstract: The present invention relates to a communication system (140), to a monitoring system (110) for in-situ monitoring of at least one substance (112), wherein the monitoring system (110) comprises the communication system (140), as well as to related methods (310, 312). The monitoring system (110) can, via the communication system (140), be used for monitoring the at least one substance (112) and to provide treatment data for treating the at least one substance (112). Herein, the communication system (140) comprises a cloud server (144), a first server (146), at least one second server (148, 148'), and at least one third server (150, 150'); wherein the first server (146) further has a first communication interface (156) configured to provide reference spectral information referring to at least one reference sample and reference analytical data to the cloud server (144); wherein each second server (148, 148') has a second communication interface (158, 158') configured to provide spectral information related to at least one substance (112) to the cloud server (144); wherein the cloud server (144) is configured to * generate a calibration model by using the reference spectral information referring to the at least one reference sample and the reference analytical data provided by the first server (146), wherein the calibration model comprises at least one parameter; * apply the calibration model to the spectral information related to the at least one substance (112) provided by the second server (148, 148'), whereby at least one value for the at least one parameter is extracted; * provide the at least one value for the at least one parameter to the first server (146) via the first communication interface (156); wherein the first server (146) is further configured to determine treatment data by using the at least one value for the at least one parameter provided by the cloud server (144), wherein the treatment data comprise at least one piece of data which is related to a proposed treatment of the at least one substance (112); wherein the first server (146) further has at least one third communication interface (160, 160'), wherein each third communication interface (160, 160') is configured to provide the treatment

公开(公告)号：WO2021185895A1

公开(公告)日：2021-09-23

申请号：PCT/EP2021/056798

申请日：2021-03-17

Applicant: BASF SE ,  TRINAMIX GMBH

Inventor： BINDER, Kai Uwe ,  SIEDER, Georg ,  FERSTL, Wolfgang ,  KATZ, Torsten ,  MODES, Gerd ,  HERMES, Wilfried ,  SCHMIDT, Felix ,  KETTNER, Michel Valentin ,  BRILL, Jochen ,  LUNGENSCHMIED, Christoph

IPC: G05B19/418 ,  G01J3/02 ,  G01J3/28 ,  G01N21/27 ,  G01N21/31 ,  G01N21/359 ,  G01N21/35

Abstract: The present invention relates to a communication system (140), to a monitoring system (110) for in-situ monitoring of at least one substance (112) used in a gas scrubbing process, wherein the monitoring system (110) comprises the communication system (140), as well as to related methods (310, 312). The monitoring system (110) can, via the communication system (140), be used for monitoring the at least one substance (112) and to provide treatment data for treating the at least one substance (112). Herein, the communication system (140) comprises a cloud server (144), a first server (146), at least one second server (148, 148'), and at least one third server (150, 150'); wherein the first server (146) further has a first communication interface (156) configured to provide reference spectral information referring to at least one reference sample and reference analytical data to the cloud server (144); wherein each second server (148, 148') has a second communication interface (158, 158') configured to provide spectral information related to at least one substance (112) to the cloud server (144); wherein the cloud server (144) is configured to - generate a calibration model by using the reference spectral information referring to the at least one reference sample and the reference analytical data provided by the first server (146), wherein the calibration model comprises at least one parameter; - apply the calibration model to the spectral information related to the at least one substance (112) provided by the second server (148, 148'), whereby at least one value for the at least one parameter is extracted; - provide the at least one value for the at least one parameter to the first server (146) via the first communication interface (156); wherein the first server (146) is further configured to determine treatment data by using the at least one value for the at least one parameter provided by the cloud server (144), wherein the treatment data comprise at least one piece of data which is related to a proposed treatment of the at least one substance (112); wherein the first server (146) further has at least one third communication interface (160, 160'), wherein each third communication interface (160, 160') is configured to provide the treatment data to the at least one third server (150, 150').

公开(公告)号：WO2021064003A1

公开(公告)日：2021-04-08

申请号：PCT/EP2020/077329

申请日：2020-09-30

Applicant: TRINAMIX GMBH

Inventor： VALOUCH, Sebastian ,  HERMES, Wilfried ,  LUNGENSCHMIED, Christoph ,  BRILL, Jochen ,  GUST, Robert ,  SEND, Robert ,  FEUERSTEIN, Bertram ,  KLUEH, Stefan

IPC: G01J3/26 ,  G01J3/28 ,  G01J3/36

Abstract: A detector array (112), a spectrometer system (110) comprising the detector array (112) and various uses of the spectrometer system (110) are disclosed. The spectrometer system can be employed for various investigation or monitoring purposes, in particular in the infrared spectral region, especially in the near-infrared and the mid infrared spectral regions. Herein, the detector array (112) comprises a substrate (212); and a plurality of detector pixels (144) applied to a surface of the substrate (212), wherein each detector pixel (144) has a sensor region (214) which is designated for receiving a partition of incident light (114), wherein each detector pixel (144) is designated for generating a sensor signal depending on an intensity of the partition of the incident light (114) received by the sensor region of the detector pixel (144), wherein at least two adjacent detector pixels (144) share a single connection to a common electric potential (316), and wherein the sensor regions of at least two of the detector pixels (144) differ with respect to each other by an area (220) of the corresponding sensor region (214).