Add to ORKGThis article describes modelling and measurement of tiny liquid flows of the order of microlitres through mililitres per minute. The measurement of mentioned flow range is becoming more and more important for a lot of applications in the life science, analysis, biotechnologies, synthesis (of e.g. pharmaceuticals) and nanotechnology markets. Accompanying demands to flow sensors suited for this low flow range are an extremely small internal volume, the use of for instance PEEK and fused silica as wetted material for the flow sensor tube (instead of stainless steel), and a modular set-up of the instruments, so they can be easily exchanged and adapted to a new need
A review is given on sensors fabricated by silicon micromachining technology using the thermal domai...
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
This paper presents micromachined thermal flow sensors for measuring liquid flow down to 0.05 μl/min...
Abstract: This article describes modelling and measurement of tiny liquid flows of the order of micr...
This article describes modelling and measurement of tiny liquid flows of the order of microlitres th...
A simple to realise micro-liquid flow sensor with high sensitivity is presented. The sensor is based...
The emerging fields of micro total-analysis systems (micro-TAS), micro-reactors and bio-MEMS drives ...
The paper presents the design and experimental experience with the gas flow measurement instrument f...
This paper presents the evaluation of a miniature liquid microflow sensor, directly integrated on a ...
In the presented investigation, the problem of accurate determination of micro mass flow was studied...
This paper presents micromachined thermal sensors for measuring liquid flow rates in the nanoliter-p...
A system using low-cost and off-the-shelf electronic components for measuring very low flow rates of...
The precise measurement of micro and nanoflow of incompressible liquids (below 1 μL/h) is a complex ...
Based on the results of computational fluid dynamics simulations, this study designed and fabricated...
The ability to measure the amount of fluid that flows from one location to another is of use in a wi...
A review is given on sensors fabricated by silicon micromachining technology using the thermal domai...
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
This paper presents micromachined thermal flow sensors for measuring liquid flow down to 0.05 μl/min...
Abstract: This article describes modelling and measurement of tiny liquid flows of the order of micr...
This article describes modelling and measurement of tiny liquid flows of the order of microlitres th...
A simple to realise micro-liquid flow sensor with high sensitivity is presented. The sensor is based...
The emerging fields of micro total-analysis systems (micro-TAS), micro-reactors and bio-MEMS drives ...
The paper presents the design and experimental experience with the gas flow measurement instrument f...
This paper presents the evaluation of a miniature liquid microflow sensor, directly integrated on a ...
In the presented investigation, the problem of accurate determination of micro mass flow was studied...
This paper presents micromachined thermal sensors for measuring liquid flow rates in the nanoliter-p...
A system using low-cost and off-the-shelf electronic components for measuring very low flow rates of...
The precise measurement of micro and nanoflow of incompressible liquids (below 1 μL/h) is a complex ...
Based on the results of computational fluid dynamics simulations, this study designed and fabricated...
The ability to measure the amount of fluid that flows from one location to another is of use in a wi...
A review is given on sensors fabricated by silicon micromachining technology using the thermal domai...
Accurate liquid flow control is important in most chemical analyses. In this work, measurement of li...
This paper presents micromachined thermal flow sensors for measuring liquid flow down to 0.05 μl/min...