522 research outputs found
Concentric differential gearing arrangement
Two input members and two concentric rotatable output members are interconnected by a planetary gear arrangement. The first input drives directly the first output. The second input engages a carrier having the planetary gears affixed thereto. Rotation of the carriage causes rotation of the central sun gear of the planetary gear system. The sun gear is journaled to the carriage and is drivingly connected to the second output through a direction reversing set of bevel gears. The first input drive member includes a ring gear drivingly connected to the planetary gears for driving the second output member in the same direction and by the same amount as the first output member. Motion of the first input results in equal motion of the two outputs while input motion of the second input results in movement of the second output relative to the first output. This device is useful where non-interacting two-axis control of remote gimbaled systems is required
Mechanical planetary compensating drive system
Drive enables two concentric output shafts to be controlled independently or rotated as a unit. Possible uses are pointing and tracking devices, rotary camera shutters with variable light control, gimbal systems with yaw and pitch movement, spectrometer mirror scanning devices, etc
Salvage and storage of infectious disease protein targets in the SSGCID high-throughput crystallization pathway using microfluidics
SSGCID protein crystals were salvaged and stored using the MPCS Plug Maker and CrystalCards when high-throughput traditional sitting-drop vapor diffusion initially failed
Using microfluidics to observe the effect of mixing on nucleation of protein crystals
This paper analyzes the effect of mixing on nucleation of protein crystals. The mixing of protein and precipitant was controlled by changing the flow rate in a plug-based microfluidic system. The nucleation rate inversely depended on the flow rate, and flow rate could be used to control nucleation. For example, at higher supersaturations, precipitation happened at low flow rates while large crystals grew at high flow rates. Mixing at low flow velocities in a winding channel induces nucleation more effectively than mixing in straight channels. A qualitative scaling argument that relies on a number of assumptions is presented to understand the experimental results. In addition to helping fundamental understanding, this result may be used to control nucleation, using rapid chaotic mixing to eliminate formation of precipitates at high supersaturation and using slow chaotic mixing to induce nucleation at lower supersaturation
Microfluidic Systems for Chemical Kinetics that Rely on Chaotic Mixing in Droplets
This paper reviews work on a microfluidic system that relies on chaotic advection
to rapidly mix multiple reagents isolated in droplets (plugs). Using a combination
of turns and straight sections, winding microfluidic channels create unsteady fluid
flows that rapidly mix the multiple reagents contained within plugs. The scaling
of mixing for a range of channel widths, flow velocities and diffusion coefficients
has been investigated. Due to rapid mixing, low sample consumption and transport
of reagents with no dispersion, the system is particularly appropriate for chemical
kinetics and biochemical assays. The mixing occurs by chaotic advection and is rapid
(sub-millisecond), allowing for an accurate description of fast reaction kinetics. In
addition, mixing has been characterized and explicitly incorporated into the kinetic
model
Experimental test of scaling of mixing by chaotic advection in droplets moving through microfluidic channels
This letter describes an experimental test of a simple argument that predicts the scaling of chaotic mixing in a droplet moving through a winding microfluidic channel. Previously, scaling arguments for chaotic mixing have been described for a flow that reduces striation length by stretching, folding, and reorienting the fluid in a manner similar to that of the baker’s transformation. The experimentally observed flow patterns within droplets (or plugs) resembled the baker’s transformation. Therefore, the ideas described in the literature could be applied to mixing in droplets to obtain the scaling argument for the dependence of the mixing time, t ∼ (aw/U)log(Pe), where w [m] is the cross-sectional dimension of the microchannel, a is the dimensionless length of the plug measured relative to w, U [m s^−1] is the flow velocity, Pe is the Péclet number (Pe = wU/D), and D [m^2 s^−1] is the diffusion coefficient of the reagent being mixed. Experiments were performed to confirm the scaling argument by varying the parameters w, U, and D. Under favorable conditions, submillisecond mixing has been demonstrated in this system
Gestational age limits for abortion and cross-border reproductive care in Europe: a mixed-methods study
Objectives Little is known about the experiences of women who travel within Europe for abortion care from countries with relatively liberal laws. This paper aims to assess the primary reasons for travel among a sample of women who travelled from European countries with relatively liberal abortion laws to obtain abortion care mainly in the UK and the Netherlands. Design Multi-country, 5-year mixed methods study on barriers to legal abortion and travel for abortion. Setting UK, the Netherlands and Spain. Population or Sample We present quantitative data from 204 surveys, and qualitative data from 30 in-depth interviews with pregnant people who travelled to the UK, the Netherlands and Spain from countries where abortion is legal on broad grounds within specific gestational age (GA) limits. Methods Mixed-methods. Main outcome measures GA when presenting at abortion clinic, primary reason for abortion-related travel. Results Study participants overwhelmingly reported travelling for abortion because they had exceeded GA limits in their country of residence. Participants also reported numerous delays and barriers to receiving care. Conclusions Our findings highlight the need for policies that support access to abortion throughout pregnancy and illustrate that early access to it is necessary but not sufficient to meet people's reproductive health needs. Funding This study is funded by the European Research Council (ERC). Tweetable abstract This study shows that GA limits drive women from EU countries where abortion is legal to seek abortions abroad
Nanovolume optimization of protein crystal growth using the microcapillary protein crystallization system
The Microcapillary Protein Crystallization System (MPCS) is used to successfully optimize protein crystals from 28 out of 29 tested proteins. Six protein structures have been determined from diffraction-ready crystals grown inside and harvested directly from the MPCS CrystalCards, which are compatible with the recently commercialized and automated MPCS Plug Maker instrument
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