ELECTRICAL ENGINEERING

Through the TESLADRAFTER spin-off, low- and medium-voltage electrical networks are designed, including 3D modeling, single-line diagram development, and as-built documentation. The know-how encompasses design for hydroelectric power generation, transformation, and standardized distribution systems. The BIM methodology enables multidisciplinary coordination and regulatory compliance validation.

CONTROL DIAGRAM

UNIFILAR ALEMAN

| | Project: CONTROL DIAGRAM | | Date: January 8, 2024 | | Prepared by: Markus Hormaza, Representative of ASAP PROJECTS © | | Objective: Independent work focused on technical digitization and enhancement, including the implementation of artificial intelligence. The project is based on CC BY-SA 3.0 source material, with emphasis on high-voltage single-line electrical distribution, adapted to updated safety and energy-efficiency regulations | | Design Phase: Digitization and Technical Optimization | | Required Skills: Electrical technical drafting, CAD administration, knowledge of standardized electrical symbology, application of electrical codes and standards, implementation of artificial intelligence tools for generating annotations and specifications, and interpretation and correction of complex electrical drawings | | Level of Development (LOD): The scope included detailed digitization of a single-line diagram originally developed by a German corporation under the CC BY-SA 3.0 license, and the creation of a new, renamed document under the same license. In addition to digitization, artificial intelligence was implemented to generate technical annotations and enhanced specifications, ensuring that updated dimensions and parameters comply with current electrical distribution standards. Corrections to incomplete sections and critical adjustments were applied to the original design, ensuring accuracy and efficiency in the representation of the electrical discipline | | Applicable Codes and Standards: VDE (Association for Electrical, Electronic & Information Technologies), IEC (International Electrotechnical Commission), IEEE (Institute of Electrical and Electronics Engineers), EEEI (Electric Energy Efficiency Improvement), ISO (International Organization for Standardization) | | Project Scope: Digitization and optimization of a single-line diagram, including technical specification review and required adjustments for electrical distribution systems. Artificial intelligence tools were integrated to enhance technical annotations and propose engineering solutions based on current best practices in standardized electrical systems. Relevant electrical codes and regulations were implemented to ensure system compliance and safety | | Reference Data: Original document: “Energieverteilung”, VBG POWERTECH e.V., CC BY-SA 3.0, via Wikimedia Commons. Modifications Performed: Digitization in AutoCAD and implementation of artificial intelligence for annotations and design specifications. Derived and Renamed Document: “Control Diagram”, by Markus Hormaza, CC BY-SA 3.0 | | Creative Commons Reference: Creative Commons Attribution-ShareAlike 3.0 (CC BY-SA 3.0) | | Tools Used: AutoCAD and AI-based tools for technical annotation and design | | Remarks: This project demonstrates technical capability in digitizing complex electrical diagrams and implementing emerging technologies such as artificial intelligence to enhance accuracy and technical specifications. The work includes translation and the creation of a new derivative asset under the same Creative Commons license as the original document, ensuring continuity of open technical knowledge within the electrical engineering domain | | Justification: The digitization process not only met the original technical requirements but also delivered a substantial improvement in spatial diagram layout, optimizing element distribution for clearer and more accurate interpretation. Standardized and parameterized electrical symbology and related codes were incorporated, ensuring the diagram reflects current best practices in electrical representation. This project highlights advanced capabilities in CAD digitization and normalization of complex electrical systems, elevating the quality of the original design | | Contact: Markus Hormaza, hormazamarkus@gmail.com | | Rights: ASAP PROJECTS © All rights reserved | |

ELEKTROVERTEILUNGSDIAGRAMM VON SAMAEL HORMAZA [CC BY-SA 3,0]

TRANSFORMATION DIAGRAM

UNIFILAR ITALIANO

| | Project: TRANSFORMATION DIAGRAM | | Date: January 8, 2024 | | Prepared by: Markus Hormaza, Representative of ASAP PROJECTS © | | Objective: Independent work demonstrating technical capability and expertise in electrical power transformation. The purpose of the project was to digitize a primary transformation single-line diagram, improving its readability through parameterized CAD standards and optimizing its presentation for future electrical system design and implementation processes | | Design Phase: Digitization and Technical Optimization | | Required Skills: Electrical technical drafting, CAD administration, knowledge of standardized electrical symbology, application of electrical codes and standards, implementation of artificial intelligence tools for generating annotations and specifications, and interpretation and correction of complex electrical drawings | | Level of Development (LOD): The scope included detailed digitization of a single-line diagram originally developed in Italy under the CC BY-SA 3.0 license, and the creation of a new, renamed document under the same license. The project level of development exceeded basic digitization, incorporating significant improvements in the spatial arrangement of electrical elements to facilitate clear and accurate interpretation. Standardized and parameterized symbology was implemented in accordance with EEEI (Electric Energy Efficiency Improvement) standards and related regulations. Artificial intelligence tools were applied to support annotations and design specifications | | Applicable Codes and Standards: IEC (International Electrotechnical Commission), IEEE (Institute of Electrical and Electronics Engineers), EEEI (Electric Energy Efficiency Improvement), ISO (International Organization for Standardization) | | Project Scope: Digitization of a primary electrical transformation single-line diagram, including enhancements to spatial layout and application of standardized symbology. Artificial intelligence tools were employed to add technical annotations and refine design specifications, ensuring compliance with applicable electrical standards | | Reference Data: Original document: “Schema Unifilare Cabina Primaria”, 3IMPACT, CC BY-SA 3.0, via Wikimedia Commons. Modifications Performed: Digitization in AutoCAD and implementation of artificial intelligence for annotations and design specifications. Derived and Renamed Document: “Transformation Diagram”, by Markus Hormaza, CC BY-SA 3.0 | | Creative Commons Reference: Creative Commons Attribution-ShareAlike 3.0 (CC BY-SA 3.0) | | Tools Used: AutoCAD and AI-based tools for technical annotation and design | | Remarks: This project demonstrates the technical capability to digitize complex electrical diagrams and apply emerging technologies such as artificial intelligence to enhance accuracy and technical specifications. The work includes translation and the creation of a new derivative asset under the same Creative Commons license as the original, ensuring continuity of open technical knowledge within the electrical engineering field | | Justification: The digitization process significantly improved the spatial layout of the original single-line diagram, presenting electrical components in a more organized and legible manner. Standardized and parameterized symbology compliant with EEEI and international standards was applied, facilitating understanding and reuse in future projects. The incorporation of artificial intelligence enabled the addition of technical notes and design specifications, adding substantial value to the generated deliverable. While the project focused exclusively on digitization, the results stand out for their technical quality and rigor | | Contact: Markus Hormaza, hormazamarkus@gmail.com | | Rights: ASAP PROJECTS © All rights reserved | |

DIAGRAMM UNIFILARE, AUTORE SAMAEL HORMAZA [CC BY-SA 3,0]

LIGHTNING PROTECTION SYSTEM

APANTALLAMIENTO ATMOSFERICO

| | Project: LIGHTNING PROTECTION SYSTEM | | Date: February 2, 2020 | | Prepared by: Markus Hormaza, Representative of ASAP PROJECTS © | | Objective: 3D modeling of a lightning protection coverage system to ensure operational safety in hydrocarbon processing facilities | | Design Phase: Detailed projection and 3D modeling of a lightning protection system within an Oil & Gas project | | Required Skills: Technical drafting and 3D modeling. Knowledge of international lightning protection standards. Application of safety standards in classified areas | | Development Specifications: LOD 300 3D modeling of a hydrocarbon processing plant was performed, integrating air terminals at strategic locations to safely conduct lightning discharges toward grounding systems. The design incorporated parameterized geometry and engineering calculations to ensure coverage in compliance with applicable regulations | | Applicable Codes and Standards: IEC 62305 (Protection against lightning), API RP 500 (Classification of hazardous areas in processing facilities), NFPA 780 (Standard for the Installation of Lightning Protection Systems), ANSI/IEEE Std 80 (Guide for Safety in AC Substation Grounding) | | Project Scope: Design, modeling, and projection of an atmospheric lightning shielding system for a hydrocarbon processing plant, including evaluation of required coverage to protect classified and critical areas, and integration of standardized industrial safety measures for hazardous locations | | Tools Used: Autodesk, Inc. | | Remarks: This project demonstrates technical capability in the engineering and projection of lightning shielding systems for industrial environments | | Contact: Markus Hormaza, hormazamarkus@gmail.com | | Rights: ASAP PROJECTS © All rights reserved | |

INDUSTRIAL POWER AND LIGHTING SYSTEM

DUCTOS ELECTRICOS

| | Project: INDUSTRIAL POWER AND LIGHTING SYSTEM | | Date: December 1, 2023 | | Prepared by: Markus Hormaza, Representative of ASAP PROJECTS © | | Objective: Development of a detailed 3D model integrating underground electrical conduit systems, overhead cable tray runs, and an industrial lighting system, as well as electrical power supply for instrumentation and electric actuators for flow control valves, ensuring functional performance and compliance with technical standards | | Design Phase: Detailed engineering projection and 3D modeling of the industrial electrical system. This includes configuration of conduit and cable tray routing, lighting system design, and three-dimensional representation of electrical connections to operational equipment, valve actuators, and auxiliary systems | | Required Skills: 3D modeling using CAD software, knowledge of industrial electrical design, multidisciplinary coordination, and application of international standards for electrical systems, industrial lighting, and operational safety | | Development Specifications: LOD 300 3D model integrating underground electrical duct banks for power distribution to pumps, valve actuators, and instrumentation systems. Overhead cable tray routing was designed to ensure safe and efficient connections. The pump house lighting system was modeled in 3D, optimizing illumination coverage and regulatory compliance | | Applicable Codes and Standards: IEC 60364 (Low-voltage electrical installations), NFPA 70 (NEC – National Electrical Code), ANSI/NEMA VE 1 (Metal Cable Tray Systems), RETIE (Colombian Technical Regulation for Electrical Installations), ANSI/IES RP-7 (Recommended Practice for Industrial Lighting) | | Project Scope: 3D modeling and three-dimensional representation of industrial electrical connections, ensuring compliance with international and local electrical design and safety standards | | Tools Used: Autodesk, Inc. | | Remarks: This project highlights the integration of complex electrical systems with a strong focus on accuracy, safety, and operational functionality, supported by a 3D model that optimizes design, installation, and maintenance stages | | Contact: Markus Hormaza, hormazamarkus@gmail.com | | Rights: ASAP PROJECTS © All rights reserved | |

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ELECTRICAL ENGINEERING

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