Add to ORKGResearch objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one acoustic device (saltiphone) in an aeolian sand wind tunnel to investigate how the experimental setup and the subsequent data processing affect the quantification of the aeolian sand flux. Type of research: Empirical research Method of data collection: Wind tunnel experiments Data comprises: - Wind velocity - Mass transport per height for different samplers - Analogue output of Saltiphone - Mass measured by balanc
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
© 2018 Elsevier B.V. Five types of sediment samplers designed to measure aeolian sand transport were...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
The SandFlow is an acoustic device for detecting and measuring aeolian sand transport. It is based o...
The SandFlow is an acoustic device for detecting and measuring aeolian sand transport. It is based o...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
© 2018 Elsevier B.V. Five types of sediment samplers designed to measure aeolian sand transport were...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
Research objective In this study, we test two passive traps (BEST sampler and MWAC sampler) and one ...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
In aeolian research, field measurements are important for studying complex wind-driven processes for...
The SandFlow is an acoustic device for detecting and measuring aeolian sand transport. It is based o...
The SandFlow is an acoustic device for detecting and measuring aeolian sand transport. It is based o...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
Five types of sediment samplers designed to measure aeolian sand transport were tested during a wind...
© 2018 Elsevier B.V. Five types of sediment samplers designed to measure aeolian sand transport were...