HRM Heat Ratio Method

The Heat Ratio Method (HRM) is a scientific principle for the measurement of sap flow, or water use, in plants.

  • Product Name:Heat Ratio Method
  • Item No.:HRM
  • Manufacturers:ICT
  • Country of Origin:Australia

The Heat Ratio Method (HRM) is a scientific principle for the measurement of sap flow, or water use, in plants. HRM was developed by scientists at the University of Western Australia in the late 1990's in response to the limitations of existing sap flow measurement techniques. The principal scientist in the development of HRM was Dr Stephen Burgess who was the lead author in the seminal paper published in Tree Physiology in 2001. 

ICT International is the only manufacturer in the world of HRM sap flow sensors and data loggers. The SFM1 Sap Flow Meter is the instrument which contains everything needed to measure sap flow via HRM: sensors, data logger, software interface, and internal battery which is recharged via an external solar panel. The SFM1 Sap Flow Meter can store data as raw temperature measurements or heat velocity measurements according to HRM. These data can be downloaded into Sap Flow Tool software for conversion to sap velocity, sap flow and total plant water use.


MEASUREMENT

  • Output Options     

        Raw Temperatures:  ° C

        Heat Pulse Velocity cm hr -1

        Sap Velocity: cm hr -1

        Sap Flow: cm 3 hr -1 (Litres hr -1 )

  • Range     -100 to +100 cm hr -1

  • Resolution     0.01 cm hr -1

  • Accuracy     0.5 cm hr -1

  • Measurement Duration     120 seconds


DATA

  • Computer Interface     USB, Wireless RF 2.4 GHz

  • Data Storage     MicroSD Card

  • Memory Capacity     Up to 16GB, 4GB microSD card included.


OPERATING CONDITIONS

  • Heat Pulse     User Adjustable: 20 Joules (default) approx. Equivalent to a 2.5 second heat pulse duration,auto scaling.

  • User Adjustable     Minimum interval, 3 minutes, recommended minimum 10 minutes.


NEEDLE DESIGN

  • Needle Diameter     1.3 mm

  • Needle Length     35 mm

  • Measurement Positions     2 per measurement needle

  • Measurement Spacings     7.5 mm and 22.5 mm from the needle tip

  • Dimensions L x W X D     170 x 80 x 35 mm

  • Weight     400 g


POWER

  • Internal Battery Specifications      960mAh Lithium Polymer, 4.20 Volts fully charged

  • External Power Requirements

        Bus Power     8-30 Volts DC, non-polarised, current draw is 190mA maximum at 17 volts per logger

        USB Power     5 Volts DC

  • Internal Charge Rate

        Bus Power     60mA – 200mA Variable internal charge rate, maximum charge rate of 200mA active when the external voltage rises above 16 Volts DC

        USB Power     100mA fixed charge rate

  • Internal Power Management

        Fully Charged Battery     4.20 Volts

        Low Power Mode     3.60 Volts – Instrument ceases to take measurements

        Discharged Battery     2.90 Volts – Instrument automatically switches off at and below this voltage when no external power connected.

  • Battery Life varies

        With a recommended power source connected, operation can be continuous.

        3 days at hourly logging interval without chamber heating

        1 day with chamber heating