JOCHBERG, AUSTRIA. June 6th, 2024 - GRANDER technology, specifically the GRANDER Double Cylinder (Type DZKL), also known as the "GRANDER Double Cylinder Small," has been the subject of extensive research within Wetsus' Applied Water Physics theme. Despite previous debates within the scientific community and media, recent studies indicate measurable effects of these devices.
Wetsus, the European Centre of Excellence for Sustainable Water Technology, investigates the effects of GRANDER devices in several studies within the Applied Water Physics theme.
GRANDER technology has polarized the scientific community and media over recent decades, but current studies using GRANDER cylinders in experimental setups show measurable effects.
Using physical and microbiological measurement techniques, it is now possible to scientifically document the effects of GRANDER technology. In several scientific publications, the GRANDER Double Cylinder (Type DZKL), also known as "GRANDER Double Cylinder Small", was used in experimental setups. These studies, conducted among others by Wetsus, show measurable effects on electrical impedance, light scattering in the nanometer range, and microbiological activity.
Dr. Elmar C. Fuchs is specialized in the interaction of water with external fields. Next to his function as Wetsus Program Manager he is coordinator of the Wetsus Applied Water Physics theme, which aims to investigate and utilize these interactions in order to create sustainable water treatment technology.
He said: “In my capacity as corresponding author of the publications listed below, as theme coordinator of the research theme Applied Water Physics and program manager of Wetsus, the European Centre of Excellence for Sustainable Water technology I, Dr. Elmar C. Fuchs, confirm that the devices referred to as water core magnets or WCM (type DZKL) in the three publications listed below are commercially available Original GRANDER double cylinders (trade name “GRANDER Double Cylinder Small”) which Wetsus obtained from IPF GmbH, Jochberg, Austria.”
The studies show that weak, inhomogeneous magnetic fields have measurable effects on the formation of calcium carbonate nanostructures ("DOLLOPs") and the growth of certain bacteria in water.
Scientific Publications
He said: “In my capacity as corresponding author of the publications listed below, as theme coordinator of the research theme Applied Water Physics and program manager of Wetsus, the European Centre of Excellence for Sustainable Water technology I, Dr. Elmar C. Fuchs, confirm that the devices referred to as water core magnets or WCM (type DZKL) in the three publications listed below are commercially available Original GRANDER double cylinders (trade name “GRANDER Double Cylinder Small”) which Wetsus obtained from IPF GmbH, Jochberg, Austria.”
The studies show that weak, inhomogeneous magnetic fields have measurable effects on the formation of calcium carbonate nanostructures ("DOLLOPs") and the growth of certain bacteria in water.
Scientific Publications
- Sammer, M., et al. (2016) - Strong Gradients in Weak Magnetic Fields Induce DOLLOP Formation in Tap Water. Water, 8(3), 79. [DOI: 10.3390/w8030079] (https://doi.org/10.3390/w8030079)
- Paulitsch-Fuchs, A.H., et al. (2021) - Strong Gradients in Weak Magnetic Fields Affect the Long-Term Biological Activity of Tap Water. Water (Seattle) 12, 28-45. [DOI: 10.14294/WATER.2020.5] (http://dx.doi.org/10.14294/WATER.2020.5)
- 3. Liu, X., et al. (2022) - Investigation of the Effect of Sustainable Magnetic Treatment on the Microbiological Communities in Drinking Water. Environ Res, 213, 113638. [DOI: 10.1016/j.envres.2022.113638] (https://doi.org/10.1016/j.envres.2022.113638)