Methods and apparatus that mix a plurality of individual capture reagents for the diagnostic assays are described herein. In an embodiment, a system for optically analyzing a patient sample includes an automated immunochemistry analyzer storing a plurality of capture reagents and a plurality of paramagnetic particles, a user interface configured to allow a selection of a combination of two or more of the capture reagents, and a logic implementer configured to cause the automated immunochemistry analyzer to (i) mix together each capture reagent of the combination of two or more of the capture reagents; (ii) bind the mixture of the combination of two or more of the capture reagents to the paramagnetic particles; (iii) bind the patient sample to the bound mixture of the combination of two or more of the capture reagents; and (iv) optically analyze the patient sample.

Provided herein are compositions, systems, and methods for high throughput screening. In particular, provided herein are microfluidic devices for high throughput analysis of multiplex chemical (e.g., drug interactions) across a wide range of concentrations.

The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

Systems, methods, and compositions for high throughput screening of micro-scale chemical reactions are disclosed. In particular, systems, methods, and compositions for handling small amounts of solid reagent are disclosed. For example, mechanical mixing is employed to obtain reagent-coated bulking agents that can be used, inter alia, in high throughput methods for screening micro-scale chemical reactions.

A drug processing system includes a workstation, at least one deck module movably positionable within the workstation, at least one filter plate operably coupled with the at least one deck module, an agitating member, and a liquid handler member. The at least one filter plate has a plurality of wells to receive a fluid therein. The agitating member is adapted to move the at least one filter plate according to an agitation system. The liquid handler member is adapted to selectively add a fluid to at least one of the plurality of wells and/or remove a fluid from the at least one of the plurality of wells according to a liquid handling system. The agitating member is adapted to move the at least one filter plate while the liquid handler member selectively adds and/or removes the fluid from the at least one of the plurality of wells.

A reaction column comprises a plurality of cells each of which has a lower cell portion and an upper cell portion. The cells are arranged sequentially, from an uppermost cell to a lowermost cell. The fuel inlet is configured to direct fluid through the reaction column from a lower cell portion of the lowermost cell to an upper cell portion of the uppermost cell, and out of the fuel outlet. The reagent inlet is configured to direct reagent through the reaction column from the upper cell portion of the uppermost cell to the lower cell portion of the lowermost cell. The plurality of cells may be vertically or horizontally positioned, as well as inclined and the like. Systems and methods are likewise disclosed.

The invention relates to a process and a plant for the methanol synthesis, in particular for the methanol synthesis from a synthesis gas which has a hydrogen deficiency. According to the invention, a purge gas stream therefor is branched off from the synthesis gas circuit of the methanol synthesis, liberated from methanol traces in a washing device, and then treated in a hydrogen separation device which comprises a membrane separation stage and a pressure swing adsorption stage. Depending on the application and magnitude of the hydrogen deficit the membrane separation stage and the pressure swing adsorption stage can be connected in series or in parallel.

The present disclosure relates to a single shell open interstage reactor (SSOI). The SSOI comprises a first reaction stage, an interstage heat exchanger, an open interstage region, and a second reaction stage. The SSOI may be configured for upflow or downflow operation. Further, the open interstage region of the SSOI may comprise a supplemental oxidant feed. When the open interstage region comprises a supplemental oxidant feed, the SSOI may further comprise a supplemental oxidant mixing assembly. Processes for producing acrylic acid through the oxidation of propylene are also disclosed.

An apparatus suitable for investigating solid catalysts and processes in which discontinuous fluid streams arise, the apparatus including: a reactant fluid supply point; a reaction space; at least one fluid mixing space; at least one throttle element; at least one pressure control valve; and at least one analyzer. An outlet side of the reaction space is operatively connected to the fluid mixing space via a connecting line and a substream line. The fluid mixing space is connected to the throttle element. The throttle element is operatively connected to the analyzer and an outlet line. The connecting line is operatively connected to the pressure control valve and an exit air line. The pressure control valve is arranged either downstream or upstream of the substream line. When the pressure control valve is upstream of the substream line, the outlet line is provided with a second pressure control valve and a pump.