Why, when switching on the device, does an enormous, pulse-like formation often occur at the CO2 diffuser?
When the electromagnetic valve is switched off, the pressure in the entire system from the cylinder to the pressure regulator and the tubes and to the electromagnetic valve persists. When the valve is opened, the pressure in the system escapes first and then the system continues to operate as usual.
You can decrease / prevent this by reducing the operating pressure in your pressure regulator. In our new pressure regulators, this can be done with an Allen wrench under the black cover top.
Towards the end of the filling process the cylinder pressure rapidly and significantly drops. Does this mean my system is broken?
The rapid drop in the cylinder pressure shortly before the end of the charge does not constitute grounds for complaint, and instead, is normal and unavoidable from a technical standpoint.
Reason: The cylinder is filled approximately halfway with liquid carbon dioxide. You remove gaseous CO₂ from the cylinder; the corresponding share of the liquid CO₂ passes to the gaseous phase; the pressure remains constant. It isn’t until less CO₂ passes from the liquid phase to the gaseous phase that the cylinder pressure begins to drop.
This means your system is functioning normally.
Is there anything I need to know when dealing with CO2 pressurised gas cylinders?
You must observe two points:
1) Cylinder: Reusable cylinders are TÜV tested and this is stamped on the cylinder. This test must be renewed every 10 years, with the bottom of the cylinder and the valve sealing and threaded joint being tested.
2) The carbon dioxide:
Depending on its concentration, carbon dioxide is harmful in the air. From: http://www-organik.chemie.uni-wuerzburg.de/misc/betr_ein/uw-g15.html : The respiratory rate and pulse rate increase at a carbon dioxide concentration of 3-5%. Other symptoms are headaches, discomfort and ringing in the ears. Carbon dioxide concentrations of 8-10% and more cause these symptoms to become more pronounced. This may lead to cramps, fainting, apnoea and death from suffocation.
One 500 g cylinder contains 500 g CO₂. This is equal to 11.36 mol (chemical substance amount unit). One mol of a gaseous substance has a volume of 22.414 l under normal conditions (273.15 K, 101325 Pa), so that 500 g of CO₂ result in a volume of 254.7 l. CO₂ is heavier than air, so that it collects on the ground. This corresponds to a CO₂ height level in the range of 12.735 mm = 1.27 cm for a room of 20 m². If it is mixed completely with the air in a room of 20 m² and a height of 2.5 m (corresponds to 50,000 l), this corresponds to a maximum gas concentration of 0.5 volume %, which is well below the dangerous level.
Can/May I also use auch compressed gas cylinders by other manufacturers?
The connections on reusable CO₂ systems are generally standardised so that they can be used with other cylinders, with the exception of a few cases.
However please note the following restrictions. Some larger-sized cylinders are not approved for non-stop operation with pressure reducers and you will lose your warranty claim if you use such systems.
After installing the JBL ProFlora compressed gas system, no CO₂ enters the reactor. However, the cylinder pressure and working pressure displayed are in the proper range.
Please check whether the check valve (JBL SafeStop) is installed properly. It should be installed as the last element before the reactor and with the tip of the arrow pointing to the reactor (JBL Taifun).
Where did my algae come from?
Algae problems in an aquarium can never be traced to just one factor or general condition, and instead, are always the result of a combination of different factors, which include light, fertilization, water changes – specifically, how often and how much – feeding, fish population and, of course, the specific water parameters.
According to analyses that were performed over a course of a number of years, red algae, at least the common brush algae and beard algae, occur in descending order at the following parameters:
1) too little carbon dioxide (in relationship to 100 % of the measured tank); the pH level should be in the slightly acetic range, depending on the carbonate hardness, in every case.
2) elevated phosphate levels (over 90 %); phosphate limitation by means of JBL PhosEx ultra is often helpful here.
3) too little and too irregular fertilization (there should always be traces of iron at least).
4) insufficient water changes; a weekly water change of over 30 % is recommended for algae problems.
5) not enough fast-growing plants.
What’s the best way to deal with brush and beard algae?
1. Increase the volume of water changed each week to about 30-50%.
2. Fertilise regularly after the water change, e.g. with JBL Ferropol.
3. If necessary add a daily dose of Ferropol 24.
4. If algae promoting nutrients (especially phosphate) are present in higher quantities, use JBL PhosEx ultra to keep them under control.
5. Most important is carbon dioxide. Beard and brush algae are always a sign that there is too little carbon dioxide in the water. If a CO2 system is in use, increase its dosage. Alternatively consider installing a CO2 system like JBL ProFlora u401 or m601.
6. Put in fast growing stem plants as nutrient competitors.
7. If there is strong current, reduce it slightly.
Does the use of bubble stones and a strong current expel the important plant nutrient, CO2, from the water?
A bubble stone does NOT expel CO2 from the water. This is a widespread misconception in the hobby! CO2 and O2 are not related to each other in the water. Depending on the degree of saturation and the partial pressure gradient, they dissolve into air. Please bear in mind that we do not add pure oxygen to the aquarium, and instead add an air mixture of nitrogen, CO2, O2 and other components. When air pumps are used for ventilation, there is only an expulsion effect as a result of the enlarged surface of air/water if CO2 is added, to the effect that the partial pressure in the water is higher than in the air. This cannot be quantified without expending significant time and effort on metrology.