Dropvital active-drink is a drinking water that is set in a dynamic rotational motion by means of physical water refinement. A natural stream is technically imitated over a distance of around 30 kilometers. This process is based on known hydrodynamic principles as they occur in free-flowing waters.

The targeted rotation and flow control gives the water a pronounced flow dynamic. The chemical composition of the water remains completely unchanged. No minerals are added and the pH value, hardness or other chemical parameters are not affected.

Technological approach

Physical refinement takes place via a precisely controlled flow system in which the water is set in rotation at high speed. This process creates a uniform, coherent movement of the water, which is maintained for a certain period of time after bottling, provided there is no further strong turbulence.

In contrast to static methods or symbolic applications, Dropvital active-drink is based on active flow dynamics. The simulation of a natural flow path serves the technically reproducible generation of kinetic energy and flow order in the water.

Classification of perception

Many people describe Dropvital active-drink as particularly fresh, light and lively in the mouth. This perception is subjective and varies from person to person. It is not a statement about health effects, but relates exclusively to sensory properties and the physical flow behavior of the water.

Clear demarcation

Dropvital active-drink is not a medical product or a dietary supplement. No healing effects, therapeutic effects or health promises are made. Statements about the naturalness or activity of the water refer exclusively to physical properties such as flow, movement and dynamics.

Positioning

Dropvital active-drink is aimed at people who value high-quality water, modern engineering technology and nature-inspired refinement. The focus is on purity, design, sensory experience and a new way of consciously experiencing water without chemical intervention or medical claims.

Modern scientific research shows that water is not a static medium. Water molecules are in constant exchange via hydrogen bonds and are constantly reorganizing themselves. These temporary molecular arrangements are often described in the specialist literature as clusters or networks.

This dynamic is not a special case, but a central characteristic of water. It influences fundamental physical properties such as flow behavior, solubility and reaction dynamics.

Scientific background

Investigations using spectroscopic methods and molecular dynamic simulations confirm that water is a highly ordered, yet extremely mobile system. The clusters described are not fixed structures, but snapshots within a continuous process.

It is precisely this permanent reorganization that makes water a unique medium and explains why movement, flow and energy input can measurably influence the behaviour of water.

Classification of Active Nanodrink

Dropvital Active Nanodrink takes up this scientific understanding and deliberately focuses on physical processes. Controlled movement and flow dynamics put the water into an active, living state that is clearly different from still, static water.

The term "nano" refers to processes in the molecular and physical size range and does not describe any chemical change or addition of substances. The chemical composition of the water remains unchanged.

Clear demarcation

Dropvital Active Nanodrink is not a medical product or a dietary supplement. No healing or therapeutic effects are promised. Statements on the activity or vitality of the water refer exclusively to physical properties such as movement, structure and dynamics as well as sensory perceptions, which may vary from person to person.

Positioning

Active Nanodrink is aimed at people who want to experience water not just as a neutral drink, but as a consciously designed element of their everyday life. The focus is on purity, modern technology, nature-inspired processes and a high-quality drinking experience.

• Structured water - University reveals secrets about water (PDF)
• Other scientific sources (PDF)
• Not all water is the same (Uni Basel) (PDF)

Pioneering work: Warner (1970)

In his seminal article "Structured Water in Biological Systems" (Annual Reports in Medicinal Chemistry), Warner showed that water in biological systems adopts ordered patterns. These patterns interact directly with biomolecular processes and underscore how central this organization is to living systems. 

Fundamental models: Frank (1970)

Another groundbreaking paper in Science analyzed the molecular structure of water and showed how water molecules can organize themselves into dynamic, structural networks. Frank thus laid the foundation for understanding the multidimensionality of water as a chemical and physical medium. 

Structural networks: Neidle et al. (1980)

This paper in Nature demonstrated highly structured water networks in DNA-dinucleoside complexes. These networks reveal how water interacts with biological macromolecules at the molecular level and supports their stability and functionality. 

Specific molecular clusters: Kristinailyte et al. (2017)

Using NMR and FTIR techniques, this study in the Journal of Molecular Liquids investigated the clustering of water molecules. It showed that water forms nanoscale structures that change dynamically under different conditions and exhibit specific properties. 

Response to electromagnetic fields: Montagnier et al. (2015)

Nobel Prize winner Luc Montagnier and colleagues have shown that water has the ability to receive electromagnetic signals and store them in specific molecular organizations. These findings expand our understanding of the active role of water in biological processes. 

Interactions due to external stimuli: Gramatikov et al. (1992)

The Fresenius Journal of Analytical Chemistry has investigated how external factors such as temperature or chemical changes influence the molecular organization of water. These studies prove that water actively reacts to environmental conditions and dynamically adapts its molecular structure. 

Networks and non-polar substances: Muller (1988)

A study in the Journal of Solution Chemistry has shown how water organizes itself around non-polar molecules. These observations illustrate the complexity of the molecular interactions of water. 

Quantum effects in water: Del Giudice et al. (2005)

The authors introduced a model of coherent quantum electrodynamics in Electromagnetic Biology and Medicine. They showed that the molecular organization of water is shaped not only by classical mechanisms such as hydrogen bonds, but also by quantum physical phenomena. 

Surface interactions: Tarov et al. (2005)

This work showed how hydrophobic and hydrophilic surfaces influence the molecular structure of water. The authors documented that water in contact with such surfaces forms ordered layers that are unique in their function. 

Electrical properties: Tychinsky (2011)

A comprehensive analysis in the Water Journal has shown that water molecules in specific organizations have an exceptionally high electrical susceptibility, which indicates an extended molecular order.  

Spectral signatures: Segarra-Martí et al. (2013)

This study in Molecular Physics showed that molecular water organization produces specific absorption and fluorescence spectra that serve as molecular "fingerprints". This indicates the precision of structural dynamics in water.

Supramolecular architectures: Elia et al. (2016)

Through targeted external stimulation, these authors created supramolecular architectures in water in the Water Journal. These structures exhibit a high degree of stability and complexity that goes far beyond simple molecular bonds. 

Hydrogen-rich water clusters: Ignatov et al. (2024)

A recent study in Water investigates cluster formation in hydrogen-rich water (HRW) using NMR and DFT analyses. The results show the formation of stable cluster structures that further substantiate the molecular dynamics and potential medical applications of structured water.

Source for all studies cited:

 (Source: PDF "structured water)

Hydrogen bonds are a central component of the structure of water and explain many of its known properties. However, modern research shows that they interact with other physical interactions and thus enable the special dynamics and complexity of water.

In addition to hydrogen bonds, the following influences are also considered in science:

Van der Waals interactions

These weak intermolecular forces contribute to the short-term stabilization of molecular arrangements and influence the spatial orientation of water molecules. They are a recognized component of physico-chemical models for the description of collective effects in liquids.

Quantum physics approaches

Some theoretical works, including models by Del Giudice and colleagues, investigate quantum physical effects as a complementary description of the molecular dynamics of water. These approaches extend classical models and are seen as part of an ongoing scientific discourse.

Electromagnetic influences

Research is also being carried out into how electromagnetic fields can influence the organization of water molecules. Such studies help to view water not only as a chemical substance, but also as a physically reactive medium.

Surface interactions

It is well established that hydrophilic and hydrophobic surfaces locally change the arrangement of water molecules. Ordered structures are created in interface areas that differ measurably from freely moving water and are relevant for many natural and technical processes.

Classification and significance

The research work mentioned is based on recognized experimental methods such as spectroscopy, model calculations and surface analyses. They unanimously show that water is a dynamically organized system whose properties arise from the interplay of several physical forces.

This multidimensional view expands the scientific understanding of water and explains why it plays a special role in biological, chemical and technological contexts. It describes the adaptability and functionality of water without deriving medical or therapeutic statements from it.

The growing interest in so-called structured water is based on the increasing awareness of how central water is to biological processes. The human body consists to a large extent of water, and a significant proportion of this is found within cells. In these highly organized environments, water is not isolated but part of complex molecular interactions.

This observation gave rise to the idea that water could play a role not only chemically, but also in its physical organization. Terms such as structured, hexagonal or H3O2 water are used to describe this particular way of looking at water.

Conceptual basis of the concept

Proponents of structured water concepts assume that water molecules temporarily organize themselves in ordered arrangements and that movement, pressure, contact with surfaces or natural flow can influence this organization. These considerations are based on known physical properties of water, such as its dynamics, adaptability and responsiveness to environmental conditions.

Connection to nature and spring water

Structured water is often compared to natural spring water. Water that flows over long distances, comes into contact with rocks and is exposed to natural currents is often perceived as particularly fresh and lively. Such comparisons serve to illustrate natural processes in which movement and environmental influences shape the behavior of water.

This awareness has contributed to many people taking a closer look at the quality and origin of their drinking water.

Popular interpretations and modern lifestyles

The term structured water has also been taken up in the context of modern lifestyles, holistic approaches and alternative ways of thinking. The focus here is less on a medical effect and more on the conscious experience of water as an elementary part of everyday life. Statements on detoxification, cell health or performance enhancement primarily reflect individual convictions and are scientifically evaluated in different ways.

Classification by Dropvital

Dropvital approaches the topic of structured water with an open but responsible attitude. The focus is on physical properties such as movement, dynamics and purity of the water as well as on high-quality, comprehensible refinement processes. Dropvital makes no claims about medical or therapeutic effects and understands terms such as structure or activity as descriptions of physical states and sensory perceptions.

Source:
Max Planck Institute (PDF)

Modern science describes water in biological systems not as a random collection of individual molecules, but as a dynamic, locally organized medium. Within human cells in particular, water in the immediate vicinity of biomolecules exhibits specific orders that are important for normal biological processes.

Ordered water layers in cells

In cells, water forms so-called hydration layers around proteins, DNA and other large biomolecules. These water molecules are spatially and energetically organized differently than freely moving water. Such structures are a well-studied component of biochemistry and support the stability, function and interaction of biomolecular systems, for example in enzyme reactions or the structural organization of cell components.

Classification of modern research approaches

Some research approaches, including the concept of so-called exclusion zone water, investigate how water organizes itself in particular ways near surfaces or interfaces. These models provide exciting insights into the physical properties of water in complex environments and are being researched and discussed internationally. They contribute to the further development of our understanding of water as an active component of biological systems.

Importance of dynamics

Water in cells is characterized by its high mobility and adaptability. Ordered water layers are not rigid, but change continuously depending on their environment. It is precisely this dynamism that enables biological systems to react flexibly to different requirements and control processes efficiently.

Positive classification

Scientific findings show that water plays a far more complex role in biological systems than has long been assumed. Its ability to organize itself locally while remaining highly dynamic makes water a central element of life. This view emphasizes the special importance of water, without deriving any medical or therapeutic conclusions from it.

Classification at Dropvital

Dropvital takes up this modern understanding of water as a dynamic and adaptable system. Terms such as structure or organization are understood as descriptions of physical states and natural processes. Dropvital makes no claims about healing effects or health benefits and deliberately focuses on transparency and scientific accuracy.

Summary

Research shows that water in human cells is both locally organized and highly dynamic. These properties support fundamental biological processes and illustrate how versatile water is as a medium. In this sense, Dropvital understands water as a fascinating, living system whose complexity is becoming increasingly better understood scientifically.

UV light is often used in water treatment to reduce microorganisms. This is an established process for the hygienic protection of water. At the same time, UV treatment is limited to this purpose and does not change the chemical composition or physical dynamics of the water.

Dropvital takes a deliberately different approach with active-drink. The focus is not on treating the water with high-energy radiation, but on gentle, physical refinement based on natural movement and flow processes.

Focus on movement and dynamics

active-drink is based on the idea that water is not a static medium, but a dynamic system. Targeted physical processes set the water in an active, uniform motion. The chemical composition of the water remains completely unchanged. No substances are added or removed.

This approach is based on natural flow processes as they occur in freely moving water and aims to shape the physical properties of the water in a particularly gentle way.

Radiation-free approach

Dropvital deliberately avoids UV radiation when refining active-drink. This avoids high-energy interventions that go beyond pure hygiene. Instead, Dropvital relies on comprehensible, reproducible physical principles such as movement, flow and contact time.

Classification of scientific concepts

In research, water is increasingly described as a complex, reactive system whose properties depend heavily on movement and environment. These findings form the conceptual background of active-drink. However, Dropvital does not derive any medical or therapeutic statements from this.

Clear demarcation

active-drink is not a medical product or a dietary supplement. No statements are made about effects on cells, DNA, the immune system or diseases. Statements on quality, activity or naturalness refer exclusively to physical properties and the sensory perception of the water.

Summary

Dropvital active-drink stands for modern, radiation-free water refinement that relies on physical movement instead of irradiation. The focus is on purity, dynamism and a conscious approach to water - clear, transparent and without any medical claims.

No. The active-drink is completely service and maintenance-free if installed correctly. If it is integrated into the cold water system and operated in accordance with a suitable filter system, neither regular maintenance work nor replacement is required.

The active-drink works purely physically, contains no wearing parts and requires no consumables. This means that the function is permanently maintained without the need for ongoing intervention.

The active-drink is integrated into the cold water system after a suitable filter system. Installation is quick and easy using push-in connections: One hose is plugged into the inlet and one hose into the outlet of the active-drink.

No special tools are required. If installed correctly, the active-drink can be integrated into existing systems without any problems.

Yes, the active-drink is designed so that it can be installed easily with the appropriate hose connections and without any special technical knowledge. If it is professionally connected to the existing cold water system, you can install it yourself without any problems.

The physical refinement in active-drink causes the water to move intensively and evenly. This dynamic increases the mixing of the water and can promote contact with the surrounding air, especially when it comes out of the tap.

Under certain conditions, this can lead to a slightly increased dissolved oxygen content in the water. Measured values may vary depending on the water temperature, source water and flow rate.

active-drink does not add oxygen to the water and does not change its chemical composition. Observed differences relate exclusively to physical properties such as movement, mixing and gas solubility.

Note on classification

Information on dissolved oxygen refers to measurable physical parameters of the water. They do not constitute a statement about biological, health or performance-related effects.

The physical dynamics of the water created by active-drink are retained for a certain period of time after bottling, especially when stored quietly in a closed container. How long these properties remain perceptible depends on factors such as movement, temperature and storage.

In contrast to purely static methods, active-drink is based on the active movement of the water, which means that the physical quality can be seen not only directly in the system, but also after bottling.

Due to its polar molecular structure and the formation of hydrogen bonds, water exhibits a complex and dynamic behavior. In addition to hydrogen bonds, other physical forces such as van der Waals and dipole-dipole interactions are also at work. These properties make water a system that continuously organizes and realigns itself on a molecular level.

For decades, scientific research has been describing so-called water clusters - temporary arrangements of several water molecules - which are formed under certain physical and chemical conditions.

Scientific evidence and methods

The existence and behavior of water clusters were investigated using established experimental and theoretical methods:

• Oka et al. (2019) showed in a hydrophobic environment that signals from water clusters remain detectable over a period of up to three days.

• Kulkarni (2021) used density functional theory (DFT) to analyze the stability of water clusters as a function of the number of hydrogen bonds.

• Kristinaityte et al. (2017) investigated dimer, tetramer and hexamer water clusters using nuclear magnetic resonance (NMR) and infrared spectroscopy (FTIR).

• Sun et al. (2017) and Yang et al. (2020) showed that NMR-based parameters allow conclusions to be drawn about the number of water molecules and hydrogen bonds in water clusters.

These studies confirm that water can form preferred molecular arrangements without being permanently fixed structures.

Cluster sizes and molecular organization

Clusters of two, three, four and more water molecules are described in the specialist literature. Configurations with six molecules are particularly frequently modeled as energetically favorable. In addition, larger arrangements with up to 30 water molecules have also been observed, which represent combinations of hexagonal and smaller structures.

Influence of minerals and ions

The local organization of water is also influenced by dissolved ions:

- Water clusters around calcium ions have been identified by Kochanski & Constantin (1987), Watanabe & Iwata (1997) and Ariyarathna & Miliordos (2020) examined.

- Cluster formations with magnesium ions were detected by Delgado, Sethio & Kraka (2021) described.

• Wang et al. (2023) analyzed water clusters in conjunction with zinc ions (Zn²⁺).

This work shows that stable hydrate shells of water molecules can form around metal ions, as is typical for natural drinking water.

Influence of external fields

External physical influences were also investigated:

• Chang & Weng (2006) showed that the number of hydrogen bonds increases when exposed to constant magnetic fields between 1 and 10 Tesla.

• Gao et al. (2021) used molecular dynamics simulations to demonstrate that changes in the cluster structure can be maintained over time. The analysis was carried out using hierarchical cluster structure methods.

Classification

The studies mentioned prove that water forms temporarily organized molecular structures under certain conditions. These structures are dynamic, dependent on the environment and part of a constantly changing equilibrium. Statements about permanently fixed water structures or specific health effects cannot be derived from this.

Classification at Dropvital

Dropvital refers to these scientific findings as an expression of a modern physical understanding of water. The term structured water is used as a simplified description of complex molecular dynamics. Dropvital does not make any medical or therapeutic statements and does not derive any health claims from the studies mentioned.

The refined water from Dropvital is treated purely physically. Its chemical composition remains unchanged and no substances are added or removed. In principle, it is therefore also suitable for babies and small children, provided the underlying drinking water meets the usual quality requirements.

In specialist and non-fiction literature, water in the human body is often described as being particularly organized. For example, in the work The Water Puzzle and the Hexagonal Key The view that water in biological systems, especially in newborns, is predominantly present in ordered molecular arrangements. This representation serves to describe biological water organization and does not represent a medically recognized standard or recommendation.

Dropvital takes up such considerations as part of a broader understanding of water, without deriving any statements about health effects or benefits. Statements about babies and small children relate exclusively to the physical unaltered nature and compatibility of the water, not to promises of development, health or vitality.

As with all drinking waters for infants, the following applies: In the case of special health issues or when preparing baby food, the general recommendations of specialists should be followed.