Difference between revisions of "Discharge - tracer (Sommer MFT-2)"
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+ | |[[Image:MFT-2.JPG|right|400px|ADC]] | ||
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==Parameter to be measured:== | ==Parameter to be measured:== | ||
tracer concentration (, discharge) | tracer concentration (, discharge) | ||
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* small internal memory | * small internal memory | ||
* awkward software in vintage look and feel | * awkward software in vintage look and feel | ||
− | * needs RS 232 for data download | + | * needs RS 232 (COM-Port) for data download |
− | |||
==What to watch out for:== | ==What to watch out for:== | ||
+ | * signal intensity over 2394 (corresponding to concentrations above 310,5 µg/L in de-ionized water) do not yield a linear response any more (oversaturation). Concentrations in de-ionized water above 333,5 µg/L are displayed and logged as 2464. However, these detection limits seem to be lower by factor 3 in natural water (J.B.) | ||
* memory runs as ring buffer and overwrites without asking | * memory runs as ring buffer and overwrites without asking | ||
* included pipette works with two "pressure points" | * included pipette works with two "pressure points" | ||
− | * avoid | + | * when erasing of logger memory fails or logger readout takes hours, replacing the internal Li-battery and RAM chip may help (soldering skills required) |
+ | * avoid uninformed spectators when injecting the tracer, it usually looks quite nasty | ||
==Problems/Questions:== | ==Problems/Questions:== | ||
==Price:== | ==Price:== | ||
− | + | ~ 24000 € (2009, Germany) | |
==Links== | ==Links== |
Latest revision as of 11:08, 16 December 2013
Parameter to be measured:
tracer concentration (, discharge)
Method:
in-situ fluorometry
Equipment:
- main device (built-in battery and logger)
- 2 optical probes with 20-m-fibre cables
- precision pipette
- auxiliary bottles and ropes
- power supply
- data cable and software
Advantages:
- no water samples to take, complete data collection on-site
- convenient menu-guided in-situ calibration
- immediate computation of discharge
- can be equipped with alternative filters (not included) to allow detection of other tracers
- also available with two additional conductivity probes (MKT-2)
- sturdy metal transport cases
Disadvantages:
- bulky, minimum setup comprises two large cases
- incomplete manual (How can the clock be set? What exactly does "RAM for 10000 measurements" mean?)
- small internal memory
- awkward software in vintage look and feel
- needs RS 232 (COM-Port) for data download
What to watch out for:
- signal intensity over 2394 (corresponding to concentrations above 310,5 µg/L in de-ionized water) do not yield a linear response any more (oversaturation). Concentrations in de-ionized water above 333,5 µg/L are displayed and logged as 2464. However, these detection limits seem to be lower by factor 3 in natural water (J.B.)
- memory runs as ring buffer and overwrites without asking
- included pipette works with two "pressure points"
- when erasing of logger memory fails or logger readout takes hours, replacing the internal Li-battery and RAM chip may help (soldering skills required)
- avoid uninformed spectators when injecting the tracer, it usually looks quite nasty
Problems/Questions:
Price:
~ 24000 € (2009, Germany)
Links
Projects that used the above equipment:
Other related web sites:
Discharge - comparison of measurements (C2, Flowtracker, Flowsens, ADC, tracer, dipping rod)