Keeping plastic out of the Oceans and money in your pocket. No more expensive filters and bad tasting water. Feel the health benefits of the worlds best water...for free
YOUR ABOUT TO GAIN INSTANT ACCESS TO THE WATER SECRETS THAT TOOK ME YEARS AND COST ME THOUSANDS OF DOLLARS...
After spending several years and 1000's of dollars on water filters I discovered what I'm going to reveal in this course
As a cancer survivor and someone with one Kidney, I wanted to find the best drinking water source for my health
A mentor and now friend turned me onto the incredible resource that is wild spring water
This is no crazy idea, this is real water...
Imagine drinking water sourced from pristine, untouched springs nestled in the heart of nature
I will share with you what I've learned from drinking exclusively spring water for over 15 years
I've not only been able to source local spring water, I will show you how to find springs even when you travel
This course will be your guide to finding clean healthy water for FREE
Not sure you can do it?
I've taught hundred of others just like you to gather their own spring water
Where to locate Spring Water for FREE
Why spring water is the healthiest water to drink
How to know if the water is safe to drink
How to gather and store your water
The importance of water
Tap water & filters
Other water sources
how to transition to lake or river water in a survival situation
What is Structured or EZ water
Water is the universal solvent
What could be in you city water?
Essential gear you may need
1/3 of the world drinks contaminated water
What if you could find a clean drinking water source that's free
Runs 24/7 all year long, only requires that you go gather it
Doesn't matter if you live in a house, apartment or off grid
Discover how your ancestors survived drinking spring water
The effectiveness of water filtration methods can vary depending on the specific contaminants present in the water. Additionally, some systems may use a combination of methods for better results. Here's a general ranking with pros and cons for common water filtration methods:
Reverse Osmosis (RO) Filtration:
Pros: Highly effective in removing a wide range of contaminants, including heavy metals, minerals, and microorganisms. Removes dissolved salts and impurities.
Cons: Wastes water during the filtration process. Can remove beneficial minerals, affecting taste. Initial cost and maintenance expenses may be high.
Activated Carbon Filters:
Pros: Effectively removes chlorine, some heavy metals, and organic compounds. Improves taste and odor of water. Relatively low cost.
Cons: May not effectively remove certain minerals, salts, or microbes. Filter needs regular replacement for optimal performance.
UV Water Purifiers:
Pros: Destroys bacteria, viruses, and other microorganisms. Chemical-free and doesn't alter taste. Low maintenance.
Cons: Does not remove non-living contaminants like heavy metals or chemicals. Water must be clear for UV light to be effective.
Distillation:
Pros: Removes most contaminants, including heavy metals and microorganisms. Produces pure water.
Cons: Energy-intensive process. Removes beneficial minerals. Slow compared to other methods.
Ceramic Filters:
Pros: Effectively removes bacteria and larger particles. Generally low cost.
Cons: May not remove viruses or smaller contaminants. Requires regular cleaning.
Ion Exchange Filters:
Pros: Removes certain minerals, like calcium and magnesium. Softens water.
Cons: May not effectively remove other contaminants. Requires regeneration with salt.
Sediment Filters:
Pros: Removes larger particles and sediment. Low cost and easy to install.
Cons: Limited effectiveness against smaller particles, chemicals, or microorganisms. Requires regular replacement.
Boiling:
Pros: Kills bacteria and parasites. Simple and low-cost method.
Cons: Does not remove chemicals or impurities. Energy-intensive and time-consuming.
Remember that the best choice depends on the specific contaminants in your water and your preferences regarding taste, cost, and maintenance.
The specific chemical pollutants found in water samples can vary based on the location, source of water, and local industrial and agricultural activities. However, some common chemical pollutants that are often monitored in water samples include:
Heavy Metals: Heavy metals such as lead, mercury, cadmium, and arsenic can contaminate water sources, usually as a result of industrial discharges, mining activities, or improper disposal of electronic waste.
Nutrients (Nitrogen and Phosphorus): Excessive levels of nitrogen and phosphorus in water bodies can lead to nutrient pollution. This can result from agricultural runoff, untreated sewage, or the use of fertilizers. Elevated nutrient levels can contribute to problems like algal blooms and oxygen depletion in water.
Pesticides and Herbicides: Agricultural runoff can introduce pesticides and herbicides into water sources. These chemicals are used to control pests and weeds in farming but can negatively impact aquatic ecosystems if they reach water bodies.
In the quest for pristine water, many turn to water filters as a beacon of purity. While these filtration systems are undeniably effective, it's essential to acknowledge the stark reality: they face a formidable challenge when it comes to filtering every conceivable contaminant present in local water supplies.
Diverse Contaminant Landscape:
Local water supplies are akin to a dynamic ecosystem of contaminants. From heavy metals to industrial residues, the diversity of impurities challenges the one-size-fits-all approach of conventional water filters. Each contaminant demands a unique filtration strategy, making it an intricate puzzle to solve.
Ever-Evolving Threats:
Water sources are not static; they evolve, and so do the contaminants they carry. Emerging pollutants, pharmaceutical residues, and new industrial byproducts constantly pose challenges that outpace the adaptability of many standard water filters. It's a relentless game of catch-up in the face of an ever-changing threat landscape.
Microscopic Intricacies:
Some contaminants defy easy capture due to their microscopic size. Bacteria, viruses, and certain nanoparticles can slip through the finest filtration meshes, presenting a challenge that demands cutting-edge technologies beyond the reach of conventional household filters.
Complex Mixture of Chemicals:
Water supplies are often a cocktail of diverse chemicals. Filtering out one type of contaminant may leave others untouched, creating a complex challenge that requires a nuanced and multifaceted approach to ensure comprehensive purification.
Natural vs. Artificial Contaminants:
While water filters excel at removing many pollutants, they may struggle with naturally occurring contaminants. Minerals like arsenic or fluoride, which originate from geological sources, can be stubborn to eliminate, requiring advanced filtration methods that go beyond standard household solutions.
In conclusion, while household water filters are invaluable in enhancing water quality, recognizing their limitations prompts us to appreciate the complexity of water
Dr. Gerald Pollack is known for his research on water and, in particular, for proposing the concept of "exclusion zone" (EZ) water.
Here's a summary of his ideas:
Exclusion Zone Water: Dr. Pollack suggests that water near biological surfaces, such as cell membranes, can undergo a unique structuring process, creating what he refers to as exclusion zone (EZ) water. This water differs from ordinary water in terms of its physical and chemical properties.
Ordered Molecular Arrangement: EZ water is characterized by a more ordered molecular arrangement compared to regular water. The molecules in this structured water form layers with a higher degree of organization.
Negative Charge: One distinctive feature of exclusion zone water is its negative charge. This is in contrast to the neutral charge of ordinary water.The negative charge is thought to result from the exclusion of ions and particles during the structuring process.
Potential Biological Significance: Dr. Pollack suggests that exclusion zone water may play a crucial role in biological processes, especially at the cellular level.The structured water may be involved in cellular activities such as energy production and signal transduction.
Hydration and Health Implications: The concept of EZ water has implications for hydration and health. It is proposed that structured water may be more effectively absorbed by cells, contributing to better cellular hydration.
Dr. Pollack's work has sparked interest in the potential health benefits associated with consuming structured or EZ water.
10+ highly produced videos with short digestible segments
in Depth Lessons that can fit into anyone's schedule
Practical tips that can be put in place right away
Interactive Q&A after every video
Lifetime access to course!
Access to a Private Member Group with other Students
BONUS 3 Water Songs
Comprehensive list of resources