Flujo gas y turbulencia / Gas Flux and Turbulence

Cómo podemos ayudarle

Campbell Scientific offers a variety of micrometeorological systems for measuring turbulence and fluxes of greenhouse gases (CO2, H2O, CH4, N2O, and CO2 isotopes) and energy (sensible heat, latent heat, and momentum). We offer the lowest total system power available for open-path (5 W) and closed-path (12 W) eddy covariance over the entire instrument operating temperature. This, combined with our ruggedized designs and low-maintenance operation, makes our systems the ideal choice for sites in remote or challenging conditions. We are unique among flux system providers in that we manufacture all key system components: 3D sonic anemometers, gas analyzers, sampling systems, and data loggers. This enables us to make our systems much more highly integrated, taking into account important system-level considerations such as sensor colocation and mounting, high-speed measurement synchronization, sensor aerodynamics, and whole-system frequency response. Finally, our patented colocated design of the IRGASON is the only open-path CO2/H2O gas analyzer that allows for flux calculations using instantaneous point-by-point conversion to CO2 mixing ratio, which eliminates the need to correct for density effects on the measurement.

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Consulte algunos excelentes ejemplos de lo que nuestros equipos pueden hacer en este área

Más detalles acerca de nuestro Gas Flux and Turbulence Sistemas

Add energy balance or biomet sensors, such as:

HMP155A-L
Temperature and Relative Humidity Probe
NR-LITE2-L
Net Radiometer
NR01-L
4-Component Net Radiometer
CNR4-L
4-Component Net Radiometer
TCAV-L
Averaging Soil Thermocouple Probe
CS616
Water Content Reflectometer
CS650
30 cm Soil Water Content Reflectometer
CS655-L
12 cm Soil Water Content Reflectometer
HFP01-L
Soil Heat Flux Plate
HFP01SC-L
Self-Calibrating Soil Heat Flux Plate

Casos de aplicación

united kingdom: pioneering research in carbon sequestration
United Kingdom: Pioneering Research in Carbon Sequestration
Overview In the fight against climate change, innovative solutions are emerging to address the global challenge......leer más
utah: flux stations
Utah: Flux Stations
The Utah Geological Survey, supported by the Utah Division of Water Rights, has constructed a......leer más
china: flux cooperation
China: Flux Cooperation
This case study discusses the integration of CPEC310 and AP200 systems to explore the theories......leer más
tasmania: ecological research
Tasmania: Ecological Research
The Warra long-term ecological research (LTER) site located in Southwestern Tasmania was founded in 1995......leer más
india: rice-field greenhouse gases
India: Rice-Field Greenhouse Gases
The cultivation of rice—the staple food for India, as well as for approximately half the......leer más
canada: forest carbon sequestration
Canada: Forest Carbon Sequestration
Forest habitats contribute more than any other terrestrial biome to carbon cycles and processes. It......leer más
alaska: measuring fluxes in forests
Alaska: Measuring Fluxes in Forests
Scientists and land-use managers have long recognized the importance of forest lands for their role......leer más
california: turbulence study in walnut orchard
California: Turbulence Study in Walnut Orchard
Understanding the exchanges of energy, water, and carbon dioxide between the atmosphere, land, and plants......leer más
Explorar todos los Casos de Aplicación.

Preguntas frecuentes

Número de FAQs relacionadas con Gas Flux and Turbulence: 1

  1. How much does a typical system cost?

    Most Campbell Scientific systems are built from individual components. This provides maximum flexibility for our customers, but it does not lend itself to pricing a "typical" system. Contact Campbell Scientific for assistance in pricing a system to meet the unique needs of the application.

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