This instrument, featuring a heat dissipation probe, is designed to measure the instantaneous runoff density of tree trunks, providing crucial data on sap flow. It operates by observing how water moves through the tree, helping to quantify the tree’s physiological processes and the dynamics of water exchange between the tree and the surrounding atmosphere. By continuously monitoring sap flow over extended periods, the device offers valuable insights into how trees interact with their environment, making it an essential tool for studying ecological processes.
Features:
Specifications :
| Measurement Method | Heat dissipation probe method (constant heat flow sensor method) |
| Measurement parameters | <8nm FWHM |
| Probe length | 30 ° |
| Number of probe | 0.23 ~ 0.38 ㎡ |
| Display | 2 |
| Storage capacity | LED |
| Sampling time interval | 8 ~ 12VDC |
| Power supply | 0~ 60 ℃, 0 ~ 100% RH (no condensation of water vapor) |
| Measurement Method | Heat dissipation probe method (constant heat flow sensor method) |
| Measurement parameters | <8nm FWHM |
| Probe length | 30 ° |
| Number of probe | 0.23 ~ 0.38 ㎡ |
| Display | 2 |
| Storage capacity | LED |
| Sampling time interval | 8 ~ 12VDC |
| Power supply | 0~ 60 ℃, 0 ~ 100% RH (no condensation of water vapor) |
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