Basins, Patterns, and Stratified Energy Models: Architectural Research on Fluid, Material, and Electromagnetic Design Systems By Jonathan Olvera Date: November 3, 2025

 

Basins, Patterns, and Stratified Energy Models: Architectural Research on Fluid, Material, and Electromagnetic Design Systems
By Jonathan Olvera
Date: November 3, 2025

This research entry explores the development of functioning architectural models that integrate principles of geometry, material science, and electrical conduction for practical and experimental applications. The study focuses on basins, patterns, and electric energy conduits as interrelated structures within a unified design philosophy. The aim is to establish the foundational geometry and energy parameters for self-regulating and intelligent architectural components capable of fluid transfer, energy control, and aesthetic composition.

I. BASINS

The rectangular plane is considered the base geometric module for the formation of basins—fluidic bodies engineered for both hydrological and architectural use. Within this model, the exchange in fluidity is defined by cylindrical prisms and rectangular channels functioning as transfer conduits. These are sequenced through ultra-potent nodulous brackets, which impose and oppose pressures along the rectangular plane to modulate flow and gradient.

Drainage System

  • Triangular Prism (Parameter): Forms the base drainage geometry.

  • Plates: Hyper-magnetic spheres serve as force measures and flow stabilizers.

  • Positive & Negative Spheres:

    • Positive spheres generate the conductive current.

    • Negative spheres regulate resistance and backflow.

  • Control Terminals: Electrical terminals control voltage and current to measure and adjust liquid transfer dynamically.

  • Basin Surface: Designed with a circular, inverted drainage center for ergonomic efficiency and adaptable curvature, supporting modular changes and hyper-metal flush valves for advanced plumbing systems.

Functional Model Example
A dual-terminal sphere operates at 10,000 differential units on one pole and 500 constant units on the opposing terminal. This establishes a nodulous interface with quadrantal symmetry. The configuration creates a self-sufficient or analog-reliant system that extends its operational coefficient through repeating geometric models—each producing identical hydraulic and energetic effects.

II. PATTERNS

The Pattern Module investigates diagonal and nodulous ranges for the surface formation of architectural materials. These structures integrate cellulose, carbon polymers, and stone composites to produce dynamic surface effects.

Pattern Matrix (Structure):

  1. Grade: Surface density 1–8.

  2. Color Spectrum: Gradient properties integrated with material refractive coefficients.

  3. Nodule Composition: Zygotical / Carbon / Polymer / Stone.

  4. Pattern Formation: Layered, entwined, or intersecting diagonal channels.

  5. Control Panel: Adjustable for spectrum modulation and mechanical stress.

  6. Coinage: Represents physical unit valuation or exchange metric.

  7. Water Signatures: Effusion through radiation and gaseous dispersion.

  8. Spheres of Density: Conductive under radio-field regulation.

Application and Materiality
These patterns serve as tangible tile forms, scalable across volumetric or planar surfaces. Their physical ratios correspond to diagonal compositions, yielding spherical-arched textures. By introducing pollinic vegetable-like structures—light carbons and biopolymers—the material emits luminous effects when gases and color spectrums interact in effusion states.

This process defines a metric table of material performance, mapping the relationships between gravity, gaseous flow, color refraction, and electrical conductivity.

III. ELECTRICITY AND MAGNETIC CONDUITS

This section examines the conduit and magnetic sphere transfer system, designed for electron flow and hypermagnetic energy storage within architectural structures.

Control Plane Structure:

  • Primary Plane: Nodule and stratified range controlling variations in heat exposure and gas valuation.

  • Secondary Plane: Manages internal stratification—heat, gas, and terraneous interaction—across the nodule field.

  • Result: A stable hypermagnetic system suitable for embedded architectural energy control, capable of adaptive regulation based on environmental stimuli.

IV. STRATIFIED METALS AND ORIGIN SYSTEMS

This research proposes a new origin model for stratified metals based on natural nodule formation and controlled synthetic layering. Metals are organized across control planes to simulate gravitational and atomic behavior under engineered centrifuge conditions.

Core Concepts:

  • Center Sphere: Defined by ultraprotonic range and radio-diameter proportionality.

  • Cyclonic Function: Establishes rotational and axial curvature for electron or neutron field balance.

  • Quadrant Arch and Axial Dynamics: Enable weight distribution and atomic variance through centrifuge simulation.

  • Telemetric Synchrony: Allows nuclear and electrical data to be transmitted through conductive architecture.

This model anticipates a future where architectural systems can self-regulate their electricity, temperature, and energy equilibrium, effectively merging the structural and the energetic into a unified living design.

V. CONCLUSION

The presented study outlines a foundational system for architectural functionality rooted in geometry, energy, and material intelligence. By synthesizing basin mechanics, pattern matrices, and stratified metal systems, this framework demonstrates the possibility of buildings that operate as self-regulating energy environments—transforming fluid, magnetic, and material forces into living architectural forms.

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