公开(公告)号：US20160201855A1

公开(公告)日：2016-07-14

申请号：US14911884

申请日：2014-08-11

Applicant: BASF SE ,  BASF CHINA COMPANY LIMITED

Inventor： Matthias WEICKERT ,  Stefan MARX ,  Ulrich MÜLLER ,  Peter RENZE

IPC: F17C11/00 ,  F17C5/02

CPC classification number: F17C11/007 ,  B60K15/07 ,  B60K2015/03414 ,  B60Y2200/148 ,  B60Y2306/05 ,  B60Y2306/07 ,  F17C5/02 ,  F17C2221/033 ,  F17C2260/023 ,  F17C2270/01

Abstract: Sorption store (10) particularly for storing an adsorbed natural gas, said sorption store (10) containing at least one adsorbent medium (40), wherein said sorption store (10) is equipped with an external passive cooling (72).

Abstract translation: 吸附储存器（10），特别是用于储存吸附的天然气，所述吸附储存器（10）包含至少一种吸附剂介质（40），其中所述吸附储存器（10）装备有外部被动冷却（72）。

公开(公告)号：US20160023982A1

公开(公告)日：2016-01-28

申请号：US14775834

申请日：2014-03-14

Applicant: BASF SE

Inventor： Christian DIENES ,  Matthias RAULS ,  Oliver BEY ,  Matthias WEICKERT

IPC: C07C51/43

CPC classification number: C07C51/43 ,  B01D9/0004 ,  B01D9/0018 ,  B01D9/0022 ,  B01F7/162 ,  B01F7/1675 ,  B01F7/168 ,  B01F7/22 ,  B01F15/0203 ,  B01F2215/0422 ,  B01F2215/0431 ,  B01J19/006 ,  B01J19/0066 ,  B01J19/1875 ,  B01J2219/00182 ,  B01J2219/00189 ,  B01J2219/00243 ,  C07C55/10 ,  C07C55/14 ,  C07C63/26

Abstract: The invention relates to a process for producing free-flowing dicarboxylic acid crystals from an aqueous solution or suspension of the dicarboxylic acid in a crystallizer.

Abstract translation: 本发明涉及一种从二羧酸在结晶器中的水溶液或悬浮液中产生自由流动的二羧酸晶体的方法。

公开(公告)号：US20160201854A1

公开(公告)日：2016-07-14

申请号：US14911789

申请日：2014-08-11

Applicant: BASF SE

Inventor： Matthias WEICKERT ,  Stefan MARX ,  Ulrich MÜLLER ,  Peter RENZE

IPC: F17C11/00

CPC classification number: F17C11/005 ,  F17C11/007 ,  F17C2250/03 ,  F17C2250/032 ,  F17C2250/0408 ,  F17C2250/043 ,  F17C2250/0439

Abstract: A process for indicating a fill level of a sorption store (1), wherein at least one gas adsorbent medium (5) is disposed within at least one vessel (3) and wherein a total amount (ntotal) of a gas (15) stored in the sorption store (1) is computed based on at least one measured temperature value and at least one measured pressure value.

Abstract translation: 一种用于指示吸附储存器（1）的填充水平的方法，其中至少一个气体吸附介质（5）设置在至少一个容器（3）内，并且其中储存的气体（15）的总量（ntotal） 基于至少一个测量温度值和至少一个测量的压力值来计算吸附存储（1）中的吸附存储（1）。

公开(公告)号：US20160201853A1

公开(公告)日：2016-07-14

申请号：US14911756

申请日：2014-08-11

Applicant: BASF SE

Inventor： Matthias WEICKERT ,  Stefan MARK ,  Ulrich MÜLLER ,  Peter RENZE

IPC: F17C11/00 ,  F17C5/06

CPC classification number: F17C11/007 ,  F17C5/06 ,  F17C2221/033 ,  F17C2260/023 ,  F17C2270/0168

Abstract: Filling device (22) for an ANG-sorption store (10) containing at least one adsorption medium (20), said filling device (22) being of tubular shape, having a mantle (36) defining a hollow interior, orifices (48) in said mantle (36), said ANG-sorption store (10) substantially mounted horizontally, wherein said orifices (48) are arranged on an upper part (62) of said mantle (36) of the filling device (22) extending in axial direction (34) through said ANG-sorption store (10).

Abstract translation: 包含至少一个吸附介质（20）的ANG吸附储存器（10）的灌装装置（22），所述填充装置（22）为管状，具有限定中空内部的罩（36），孔口（48） 在所述地幔（36）中，所述ANG吸附储存器（10）基本上水平地安装，其中所述孔口（48）布置在所述填充装置（22）的所述地幔（36）的上部（62）上， 方向（34）通过所述ANG-吸附储存器（10）。

公开(公告)号：US20180328601A1

公开(公告)日：2018-11-15

申请号：US15775657

申请日：2016-11-15

Applicant: BASF SE

Inventor： Matthias WEICKERT ,  Stefan MARX ,  Ulrich MÜLLER ,  Lena ARNOLD

IPC: F24F3/14 ,  F24F12/00 ,  B01D53/26

CPC classification number: F24F3/1411 ,  B01D53/261 ,  B01D2253/104 ,  B01D2253/106 ,  B01D2253/108 ,  B01D2253/204 ,  B01D2253/34 ,  B01D2253/342 ,  F24F12/006 ,  Y02B30/563

Abstract: The invention relates to a ventilation system (10) with heat recovery adsorber, the ventilation system (10) for being installed in buildings, wherein the ventilation system (10) furthermore comprises at least one exterior intake/outlet opening (11) for an air stream from outside of the building and at least one interior intake/outlet opening (23) for an air stream from inside the building, at least one air fan unit (14) and at least one filter unit (12, 22), wherein the heat recovery adsorber includes a heat exchange material (16) for absorbing and releasing heat from the air streams and a sorption material (18) for at least adsorbing and desorbing at least one sorbate from the air streams, wherein the at least one sorbate is water vapor, said sorption material (18) comprising at least one adsorbent for water vapor exhibiting an s-shaped water adsorption isotherm (30) at room temperature (25° C.+/−10° C.) with a steep increase in a narrow relative humidity range, wherein a main loading lift of the adsorbent for water vapor occurs in the relative humidity range from 0.1 to 0.5 and the saturation capacity of the adsorbent for water vapor lies in the range from 0.25 to 1.2 kgwater/kgadsorbent. The invention further relates to methods and uses for combined heat recovery, cooling/heating and dehumidifying/humidifying of air streams for buildings as well as such buildings.

公开(公告)号：US20160186932A1

公开(公告)日：2016-06-30

申请号：US14911747

申请日：2014-08-12

Applicant: BASF SE

Inventor： Matthias WEICKERT ,  Stefan MARX ,  Ulrich MÜLLER ,  Peter RENZE

IPC: F17C11/00 ,  F17C5/06

CPC classification number: F17C11/007 ,  B60K2015/03019 ,  F17C5/06 ,  F17C2221/033 ,  F17C2227/04 ,  F17C2250/03 ,  F17C2270/01 ,  Y02E60/321

Abstract: A process for filling a sorption store (50) with a gas (51), wherein at least one gas adsorbent medium (60) is disposed within at least one vessel, comprising a last step (26) wherein a last portion of an entire amount of the gas (51) to be filled into the sorption store (50) is fed at a maximum feed rate, said feed rate defined as an amount of gas (51) filled into the sorption store (50) per time unit, and wherein the last portion of the entire amount of the gas (51) to be filled into the sorption store (51) is the difference between at least 20% and 100%, in particular the difference between at least 40% and 100%, by weight of gas relating to the total weight of gas to be stored.

Abstract translation: 一种用气体填充吸附储存器（50）的方法，其中至少一个气体吸附介质（60）设置在至少一个容器内，包括最后一个步骤（26），其中全部的最后部分 要填充到吸附存储器（50）中的气体（51）以最大进料速率进料，所述进料速率定义为每时间单位填充到吸附存储器（50）中的气体量（51），并且其中 要填充到吸附储存器（51）中的全部量的气体（51）的最后部分是至少20％至100％之间的差异，特别是至少40％至100％重量之间的差值 与要储存的气体的总重量有关的气体。

公开(公告)号：US20210208575A1

公开(公告)日：2021-07-08

申请号：US15734220

申请日：2019-05-21

Applicant: BASF SE

Inventor： Matthias WEICKERT

IPC: G05B19/418 ,  B24C3/32

Abstract: The invention relates to a method for determining the geometry of a raw part, which is shaped to form a finished part in a hydroerosive grinding method, comprising the following steps: (a) creation of a structural model of the finished part to be produced, the structural model of the finished part to be produced being used as an initial model for the first execution of the next step (b); (b) mathematical simulation of the hydroerosive grinding method, with which an intermediate model with a modified geometry is produced starting from an initial model; (c) comparison of the intermediate model produced in step (b) with the structural model of the finished part and determination of the distance, orthogonal to the surface of the structural model of the finished part, between the structural model of the finished part to be produced and the intermediate model at each node of the structural model, and comparison of the orthogonal distance with a predetermined limit value; (d) creation of a modified model of the component by adding from 5 to 99% of the distance determined in step (c) with the opposite sign at each node on the surface of the model which is used as an initial model in step (b), orthogonally to the surface, and repetition of steps (b) to (d), the modified model created in step (d) being used as a new initial model in step (b) if the orthogonal distance determined in step (c) at at least one node is greater than the predetermined limit value; (e) termination of the simulation when the orthogonal distance determined in step (c) between the structural model of the finished part and the intermediate model at each node falls below a predetermined limit value, the initial model of the step (b) carried out last corresponding to the raw part geometry to be determined.

公开(公告)号：US20210205956A1

公开(公告)日：2021-07-08

申请号：US15734222

申请日：2019-05-21

Applicant: BASF SE

Inventor： Matthias WEICKERT

IPC: B24C3/32

Abstract: The invention relates to a method for the hydroerosive processing of components, in which a liquid comprising grinding particles flows over surfaces of the component (1), in a device having a channel (3) through which the liquid comprising grinding particles flows under pressure and in which the component (1) to be processed is received, and in which a valve (5), with which the flow of the liquid can be adjusted, is positioned in front of the component (1) in the flow direction, comprising the following steps: (a) closing the valve (5) in front of the component (1) and generating a predetermined pressure in the liquid comprising the grinding particles; (b) opening the valve (5) in front of the component (1) and setting up a first volumetric flow of the liquid comprising the grinding particles, which is from 5 to 80% less than the product of the minimum setpoint cross-sectional area flowed through and the maximum permissible speed at this position, without the predetermined pressure generated in step (a) being changed; (c) measuring the pressure difference which is set up between a position in front of the component (1) to be processed and a position behind the component to be processed in the liquid comprising the grinding particles; (d) increasing the volumetric flow of the liquid comprising the grinding particles until the volumetric flow corresponds to the product of the minimum setpoint cross-sectional area flowed through and the maximum permissible speed at this position, as soon as the pressure difference measured in step (c) has decreased by from 5 to 80%; (e) closing the valve (5) in front of the component (1) and terminating the flow, as soon as the volumetric flow in step (d) corresponds to the product of the minimum setpoint cross-sectional area flowed through and the maximum permissible speed at this position.

公开(公告)号：US20170336030A1

公开(公告)日：2017-11-23

申请号：US15524484

申请日：2015-11-10

Applicant: BASF SE

Inventor： Matthias WEICKERT ,  Stefan MARX ,  Ulrich MÜLLER ,  Lena ARNOLD ,  Adam LACK ,  Joseph LYNCH ,  William DOLAN ,  Michael SANTAMARIA

IPC: F17C11/00 ,  B01J20/22 ,  B01J20/28

Abstract: The invention is related to a storage vessel (1) comprising a shaped body (3) of a porous solid, wherein the storage vessel (1) comprises a wall (5) with a section (7) comprising at least one inlet (9), wherein the storage vessel (1) has a central axis (11) and the central axis (11) is a longitudinal axis of the storage vessel (1) and/or perpendicular to a cross-sectional area of the at least one inlet (9), wherein the shaped body (3) covers at least 85% of an inner volume (13) of the storage vessel (1) and the shaped body (3) comprises an opening (19) in an axial direction (17), axial referring to the central axis (11) of the storage vessel (1), wherein the opening (19) extends from a first end (21) of the shaped body (3) to an opposing second end (23) of the shaped body (3) and wherein the storage vessel (1) comprises exactly one shaped body (3), which is formed in one piece. The invention is further related to a shaped body and use of the shaped body.