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title: regenerative volcanic-to-glacial water purification and revitalization system
description:
this document presents the full design and principles behind a passive, modular, earth-based water purification and revitalization system. the system transforms mineral-rich but problematic volcanic spring water into safe, structured, antioxidant water with the clarity and vitality of glacial melt.
section 1: filtration + purification layers
layered bed from top to bottom:
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schmutzdecke
- handles: most bacteria, protozoa, viruses
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top layer: fine volcanic sand
- slow sand filter
- supports biological layer
- removes turbidity
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upper mid: biochar
- hot-water-quenched from local sengon
- adsorbs organic compounds, odors, supports microbial life
- binds moderate metals and enhances cation exchange
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middle: laterite
- strongly binds aluminum, phosphate, arsenic
- improves metal detoxification
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lower mid: limestone
- raises pH
- causes precipitation of aluminum and iron hydroxides
- improves taste and softens acidity
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lower: coral sand
- enriches with calcium and magnesium
- enhances alkalinity and soft mineral balance
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base layer: coarse gravel
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supports drainage
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maintains even hydraulic flow
optional pre-layer: settling tank or cloth mesh for turbidity buffering
section 2: post-filtration activation (vitalization chamber)
modular layers and capsules:
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mineral capsule: maifan stone
- releases trace minerals (ca, mg, si, zn)
- improves taste and texture
- mildly lowers oxidation-reduction potential (orp)
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energetic ceramics capsule: zeolite, tourmaline, germanium stone
- releases far infrared radiation
- adds negative ions
- lowers orp, promotes subtle restructuring
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hydrogen charger: magnesium rods or granules
- generates molecular hydrogen (h2)
- reduces orp to antioxidant range (−100 to −300 mv)
- enhances bioavailability and cell hydration
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ceramic filter: kaolin-based candle
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final barrier for bacteria, cysts, and microplastics
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neutral taste, durable, cleanable
section 3: final structuring module
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vortex cone: porcelain funnel
- reshapes water flow into spiral vortex
- promotes coherent water structuring
- restores natural micro-cluster memory
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copper spiral: wrapped around vortex cone
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external only
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conducts and guides energetic flow
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harmonizes field structure
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amplifies centripetal energy memory
section 4: output, storage, and transport
storage design strategy:
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basalt tanks (emergency, long-term)
- use: backup reserves, deep storage
- benefits: zero leaching, cool/dark, altar aesthetics
- optionally sealed with roman concrete
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natural planted ponds (main seasonal buffer)
- use: primary open-air storage for rainwater and runoff
- benefits: ultra-low cost, regenerates biodiversity, fast capture
- filtration system ensures water quality regardless of biofilm presence
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clay jars (mid-scale, transport)
- use: daily use, moving water from system to household
- benefits: breathable, neutral to taste, handmade, sustainable
- replace unsafe plastic gallon bottles
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lab-grade borosilicate glass (personal use)
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use: sampling, research, children’s consumption
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benefits: inert, transparent, best for hydrogen retention
note on plastic bottles:
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standard 20 l plastic bottles (pc or pet) can leach bpa, antimony, or microplastics over time
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especially unsafe under sunlight or heat
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not suitable for long-term water storage or high-quality water
transport infrastructure:
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lime green ppr pipes (polypropylene random copolymer)
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chemically inert, no taste or orp alteration
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preserves hydrogen content and structured water integrity
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uv-resistant when shaded or buried
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low-cost, long-lasting, and modular
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joints should use heat fusion, not glue
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the water can be retreated after transportation for power vital properties
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lime ppr is superior to stainless steel
section 5: performance expectations
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pH: 6.8–7.4
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turbidity: < 0.3 ntu
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aluminum: < 0.05–0.2 mg/l
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total coliforms / e. coli: 0 mpn/100 ml
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orp: −50 to −300 mv
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h2 content: 0.5–1.5 ppm (if magnesium present)
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taste: soft, slightly sweet, alive
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structure: microclustered, restructured, negative charge dominant
section 6: regeneration and maintainability
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all stones are washable and reusable
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biochar can be replaced every 6–12 months
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spent biochar must be recycled directly into soil
- acts as a slow-release mineral sponge
- supports microbial life
- improves soil structure
- and completes a regenerative carbon–water–soil loop
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kaolin candle filter should be cleaned regularly and replaced when flow declines
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copper spiral never degrades
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magnesium rods replaced when bubbles decline
section 7: storage life
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in clay jars (sealed, shaded): 3–7 days optimal, 14 days max
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in lab glass bottles (airtight): 5–14 days with full vitality
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in natural ponds (for source water): indefinitely before filtering
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in basalt tanks (sealed, underground): months to years if needed
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hydrogen and structure may decline after a few days; taste may evolve
section 8: pricing tiers and strategy
initial premium strategy → expansion to access
| | model | | --- | | description | | price (idr / 20l) | | | ---- | | | premium one-off | | --- | | elite delivery to retreats, villas, select homes | | 150,000 | | | | subscription (1–3x/wk) | | --- | | committed weekly delivery with jar return | | 100,000–120,000 | | | | daily household refill | | --- | | shared refill model via neighborhood tanks | | 60,000–80,000 | | | | community subsidized | | --- | | co-op and rural partnerships with distributed filtration points | | 30,000–50,000 | |
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phase 1 focuses on fast cashflow from premium clients with strong margins
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phase 2 enters broader market with controlled pricing and local support
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strategy balances branding, social impact, and infrastructure scale-up
closing:
this system synthesizes the forces of earth (mineral), fire (ceramic), water (flow), and air (vital energy) into a complete regenerative drinking water altar. it honors natural materials, open flow, and structure — producing water that is not only safe and clean, but alive, structured, and healing.