Feasibility Study: B-P-S DISS MAGNA Magnetic Water Treatment System
Executive Summary
This feasibility study examines the B-P-S DISS MAGNA system, an innovative magnetic water treatment solution developed by B. Production & Services and promoted by ExploTec FZCO Dubai. Designed for high-efficiency, non-chemical, and energy-free operation, this system restructures water at the molecular level using a cascade of permanent magnets. Its effects are most notable in agriculture, livestock, and industrial applications, particularly in arid regions like the MENA region, the UAE, and other global desert environments.
The technology addresses several critical challenges: soil salinity, brackish water reuse, irrigation efficiency, and infrastructure scaling. Empirical data and field tests show that magnetically treated water enhances crop yield, reduces input costs, revitalizes soil microbiology, and supports water use from high-salinity sources (up to 8,000 ppm). Additionally, it mitigates limescale and corrosion in industrial systems, enhances livestock health, and offers measurable environmental benefits by eliminating the need for chemicals or electricity.
From an economic standpoint, the system provides a rapid return on investment (1–3 seasons) through water, energy, and fertilizer savings, alongside improved agricultural productivity. Despite some technical limitations and the need for more standardized scientific validation, the B-P-S DISS MAGNA system offers a scalable and sustainable path toward desert greening, smart water use, and climate resilience.
1. Background & Problem Statement
The MENA region and other arid parts of the world face acute water scarcity, soil salinization, and agricultural degradation. Traditional water treatment methods are energy-intensive and cost-prohibitive for rural or decentralized use. Saline and brackish water sources are often underutilized due to their detrimental effects on soil and crop productivity. There is an urgent need for low-cost, chemical-free technologies that can activate water, reduce salinity stress, and improve irrigation efficiency.
2. Technology Overview
The B-P-S DISS MAGNA is a non-chemical, energy-free magnetic water treatment system that uses up to 208 permanent magnets with varying field intensities (4,500 to 8,000 Gauss). It applies principles of magnetic-hydromagnetic resonance and the Lorentz force to energize and restructure water molecules. This structural transformation reduces water cluster size, enhances solubility of minerals, and breaks down salt agglomerations.
Key Features:
- No power source required
- No chemical additives
- Easy in-line installation
- Environmentally sustainable
- Lifespan exceeding 10 years
3. Technical Feasibility
Numerous studies support the scientific basis of magnetic water treatment:
- Structural modification of H2O clusters improves capillary absorption in plants
- Smaller water clusters enhance permeability through soil and membranes
- Ion polarization inhibits scale formation and corrosion
Laboratory and field data from the DESERT WATER document confirm:
- Reduction in lime and rust buildup
- Better water flow in pipelines
- Increased oxygen concentration in treated water (up to 10%)
These outcomes indicate high technical feasibility for agricultural and industrial use.
4. Agricultural Use Case Analysis
4.1 Soil Salinity Reduction Magnetized water significantly increases the leaching of salts from soil. According to field data, B-P-S-treated water can remove 3–4 times more salts than untreated water. Desalination occurs to depths of 1.1–1.6 meters within one growing season.
- Crop ripening accelerated by 15–20 days
- Yields increased by 15% to 100% in desert conditions
- Reduced fertilizer and pesticide usage
- Enhanced root absorption and nutrient uptake
4.3 Water Efficiency
These effects are especially relevant to UAE’s desert agriculture initiatives under Vision 2031 and FAO-led sustainability frameworks.
5. Industrial & Infrastructure Applications
5.1 Process Water Treatment
- Reduces chemical scaling in boilers and heat exchangers
- Stabilizes cooling and process water
- Decreases downtime and maintenance costs
5.2 Urban Infrastructure
- Suitable for hotels, hospitals, and residential systems
- Reduces use of cleaning agents and detergents
- Improves water quality in pools and domestic systems
5.3 Livestock and Aquaculture
- Promotes bone development and weight gain in poultry
- Increases disease resistance in dairy cattle
- Reduces microbial load in water and milk
These features make it attractive for integrated agribusiness parks and industrial zones.
6. Environmental and Health Impacts
- No emissions or chemical residues
- Promotes biodiversity in soil microflora and microfauna
- Reduces reliance on synthetic agrochemicals
- Improves animal health and product quality
Increased crop yields and water productivity contribute to food security and land regeneration.
7. Economic Viability
Initial Costs:
- Capital investment per unit is moderate (regionally adaptable)
- Installation is simple with low labor requirements
Operational Savings:
- Zero energy cost
- Reduced fertilizer, pesticide, and maintenance expenses
- Lower replacement frequency for corroded infrastructure
ROI Timeline:
- Break-even expected within 1–3 seasons, depending on crop and soil conditions
- High long-term savings and yield improvements
8. Challenges and Limitations
- Scientific skepticism persists in some regions due to lack of standardized field trials
- Effectiveness depends on water flow rate and magnetic field strength calibration
- Requires tailored sizing for large-scale industrial operations
- Not a substitute for filtration or biological purification
These challenges can be addressed through pilot projects, regional research partnerships, and smart integration with other systems.
9. Conclusion & Recommendations
The B-P-S DISS MAGNA magnetic water treatment system presents a highly feasible solution for enhancing water quality, improving agricultural productivity, and reducing salinity in arid environments. For the MENA region and UAE in particular, it offers a cost-effective, scalable method to transform brackish water into a usable resource. Global deserts can also benefit from its deployment as part of broader regreening and climate adaptation strategies.
Recommendations:
- Launch pilot projects in UAE desert farms and aquaculture hubs
- Collaborate with universities and water agencies to validate performance
- Develop regional manufacturing and distribution to lower costs
- Integrate with solar-powered irrigation systems for off-grid sustainability
This study concludes that the B-P-S DISS MAGNA system is technically sound, environmentally beneficial, and economically advantageous for wide-scale deployment in arid and semi-arid regions globally.
