Quantum Petroleum Pump and generation of clean enegy form waste and intgation of sustainable ecosystem: Patent

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

🔬研究者:This patent may interest researchers in bioenergy and smart building integration, offering a conceptual framework for combining waste treatment, energy generation, and adaptive materials.

🏢実務担当者:Practitioners in sustainable architecture or off-grid energy systems could consider the proposed integrated design for pilot projects, though the patent lacks empirical validation.

🏛政策担当者:Policymakers exploring decentralized renewable energy solutions may note the potential for waste-to-energy in residential zoning, but the patent remains a conceptual design.

\documentclass[pdflatex,sn-mathphys-num]{sn-jnl} \usepackage{graphicx}\usepackage{multirow}\usepackage{amsmath,amssymb,amsfonts}\usepackage{amsthm}\usepackage{mathrsfs}\usepackage[title]{appendix}\usepackage{xcolor}\usepackage{textcomp}\usepackage{manyfoot}\usepackage{booktabs}\usepackage{algorithm}\usepackage{algorithmicx}\usepackage{algpseudocode}\usepackage{listings}\usepackage{url} \theoremstyle{thmstyleone}\newtheorem{theorem}{Theorem}\newtheorem{proposition}[theorem]{Proposition} \theoremstyle{thmstyletwo}\newtheorem{example}{Example}\newtheorem{remark}{Remark} \theoremstyle{thmstylethree}\newtheorem{definition}{Definition} \raggedbottom \begin{document} \title[]{Quantum Petroleum Pump and generation of clean enegy form waste and intgation of sustainable ecosystem: Patent   } \author*[1,2]{\fnm{Sardar Dilbag} \sur{Singh Khalsa}}\email{[email protected]}\email{[email protected]} \affil*[1]{\orgdiv{Department of Physics, School of Basic Science}, \orgname{Indian Institute of Technology}, \orgaddress{\street{Bhubaneswar}, \city{Khordha}, \postcode{752050}, \state{Odisha}, \country{India}}} \affil[2]{\orgdiv{School of Basic Science}, \orgname{Indian Institute of Technology}, \orgaddress{\street{Mandi}, \postcode{175075}, \state{Himachal Pradesh}, \country{India}}} \affil[3]{\orgdiv{Department of Physics}, \orgname{University of Delhi (Ramjas College)}, \orgaddress{\postcode{110007}, \state{Delhi}, \country{India}}} \abstract{The present invention discloses an integrated bio-energy residential and laboratory system, hereinafter referred to as a BioElectric Smart Home, configured to convert human waste and biomass directly into electrical energy through a controlled anaerobic digestion and energy conversion process. The system comprises a residential structure operatively connected to an underground bio-reactor network including a sealed anaerobic digester, gas purification modules, methane storage units, and an electric power generation system, wherein generated biogas is utilized exclusively for electricity production rather than thermal or cooking applications. In one aspect, human waste and organic biomass are transported through a sealed pipeline network into the anaerobic digester, where microbial activity under oxygen-free conditions produces methane-rich biogas. The generated gas is processed through purification units configured to remove impurities including hydrogen sulfide and moisture, and subsequently directed through a controlled flow system to a biogas-powered generator. The generator converts chemical energy into electrical energy, which is distributed throughout the residential and laboratory spaces via an intelligent power management system including inverters, battery storage, and load-balancing modules. In another aspect, the system incorporates a multi-layer switching architecture comprising fluid control valves, gas routing switches, electrical distribution switches, and safety interlock mechanisms, all coordinated by a central control unit (CCU). The CCU is configured to monitor and regulate system parameters including gas pressure, temperature, flow rate, and electrical demand, ensuring optimized performance, safety, and energy efficiency. In a further aspect, the invention includes a quantum dot–based exterior coating system, comprising encapsulated nanomaterial layers applied to the structural surfaces of the building. The coating is configured to dynamically alter optical properties including color and luminance in response to controlled microwave or electromagnetic stimulation, thereby enabling programmable visual modulation of the building exterior. The system allows user-defined or automated environmental adaptation, including thermal management and aesthetic transformation. The integrated system further includes safety mechanisms such as gas leak detection, automatic shutdown switches, and ventilation control, ensuring safe operation under residential conditions. The combination of biomass-to-electricity conversion, intelligent switching networks, and quantum-responsive architectural surfaces provides a unified, scalable, and sustainable energy solution. The disclosed invention represents a novel and non-obvious integration of bioenergy systems, smart electrical infrastructure, and advanced nanomaterial coatings within a residential environment, enabling self-sustained energy generation, adaptive building functionality, and enhanced system control for modern smart habitats.}\keywords{biomass to electricity, human waste energy conversion, anaerobic digestion system, biogas electricity generation, smart bioenergy home, residential bioelectric system, methane to electricity, waste-to-energy architecture, intelligent energy management system, biogas generator system, underground digester network, smart switching architecture, central control unit energy system, gas purification system, renewable energy home, sustainable smart housing, IoT energy monitoring system, load balancing power system, battery storage integration, inverter energy system, gas leak detection system, safety interlock mechanisms, quantum dot coating, CdSe quantum dots, adaptive building surface, color changing architecture, microwave responsive coating, smart nanomaterial surface, programmable building exterior, energy efficient smart habitat, hybrid renewable energy system, eco-friendly residential design, laboratory integrated home, autonomous energy system, next generation smart home} \maketitle   \section{Field of the Invention} The present invention relates generally to the field of renewable energy systems, sustainable architecture, and smart building technologies, and more particularly to an integrated residential and laboratory system configured for conversion of biomass and human waste into electrical energy. More specifically, the invention pertains to a waste-to-energy residential infrastructure incorporating anaerobic digestion systems, biogas processing units, and electric power generation modules, wherein methane derived from organic waste is utilized exclusively for electricity generation rather than thermal or cooking applications. The invention further relates to distributed energy systems including power management units, battery storage, inverters, and intelligent load distribution networks within a residential environment. Additionally, the invention falls within the domain of smart control and automation systems, comprising a plurality of interconnected switching modules, sensors, and a central control unit (CCU) configured to monitor and regulate fluid flow, gas production, safety parameters, and electrical distribution in real time. The invention further extends to the field of advanced materials and nanotechnology, particularly the application of quantum dot–based coatings, including CdSe quantum dot thin-film layers, applied to structural surfaces of a building. Said coatings are configured for dynamic optical modulation, including color and luminance variation, in response to controlled electromagnetic or microwave stimulation. Accordingly, the invention integrates the disciplines of bioenergy engineering, electrical power systems, smart infrastructure, materials science, and architectural design, providing a unified system for self-sustained energy generation, adaptive building functionality, and intelligent residential operation.\section{Summary of the Invention} The present invention provides an integrated bio-electric residential and laboratory system configured to convert human waste and biomass directly into electrical energy through a controlled and automated waste-to-energy process. The invention addresses limitations of conventional residential energy systems by eliminating reliance on external fuel sources and enabling self-sustained electricity generation within a building environment. In one aspect, the invention comprises a residential structure operatively connected to an underground bioenergy system, including a sealed anaerobic digester configured to receive human waste and organic biomass via a controlled pipeline network. Within the digester, microbial activity under anaerobic conditions generates methane-rich biogas. The produced gas is subsequently directed through gas purification modules, removing impurities such as hydrogen sulfide and moisture, thereby producing a clean fuel suitable for energy conversion. In another aspect, the purified methane is supplied to a biogas-powered electrical generator, which converts chemical energy into electrical energy. The generated electricity is managed through an integrated power system comprising battery storage units, inverter modules, and intelligent load distribution networks, ensuring efficient and continuous supply of electricity to residential and laboratory areas. The system is specifically configured such that the generated biogas is utilized exclusively for electricity production, rather than for cooking or thermal applications. In a further aspect, the invention incorporates a multi-layer switching and control architecture, including fluid control valves, gas routing switches, electrical switching modules, and safety interlocks, all coordinated by a central control unit (CCU). The CCU monitors system parameters such as gas pressure, flow rate, temperature, and electrical demand, and dynamically regulates system operation to optimize performance, efficiency, and safety. Additionally, the invention includes an advanced quantum dot–based coating system applied to the external surfaces of the building. The coating comprises encapsulated nanomaterial layers configured to enable dynamic modulation of optical properties, including color and luminance, in response to controlled microwave or electromagnetic stimulation. This feature allows real-time customization of the building’s appearance and contributes to adaptive environmental interaction. The system further includes i

• openaire https://doi.org/10.5281/zenodo.19563770first seen 2026-06-11 04:46:58 · last seen 2026-06-16 04:32:36