Al construir las calles de nuestro país las pendientes longitudinales y transversales son de fundamental importancia para la producción de las aguas pluviales a través de contenes, badenes e imbornales además de garantizar la capacidad de producción y escorrentía de las aguas que se acumulan sobre la calzada durante los periodos de lluvia. Encontrándose estos en muchos casos obstruidas o en mal estado, teniendo que repararlo o sustituirlo, donde lo amerite, para garantizar la durabilidad de la estructura de pavimento
Este proyecto se basa en mejorar los entornos de las personas que pueblan en las provincias de: Azua, Barahona, San Cristóbal, Independencia, San José de Ocoa, San Pedro de Macorís, El Seibo, Puerto Plata, Santiago Rodríguez, Dajabón, Santo Domingo, Espaillat, Monseñor Nouel, Hermanas Mirabal, La Vega, María Trinidad Sánchez y Monte Plata.
La partida Ingeniería abarca y comprende todos los trabajos técnicos necesarios que el personal del Contratista deberá realizar para la ejecución de la obra.
Como trabajos técnicos se considerarán aquellos realizados por el superintendente y los ingenieros del Contratista, residentes en la obra y responsables de la dirección de los trabajos. También se considerarán como tales los trabajos que realicen las brigadas de topografía y de mecánica de suelos del Contratista, incluyendo los replanteos horizontales y verticales del movimiento de tierra, pavimento, estructuras, drenajes y demás partidas de trabajo comprendidas en el contrato, pruebas de campo, ensayos, así como los trabajos de gabinete del contratista relacionados con el aspecto técnico de la obra. Además se considerarán trabajos técnicos aquellos que a juicio del ingeniero sea necesario llevar a cabo para determinar emplazamientos, modificaciones, limitaciones y demás requerimientos de la obra y de sus zonas auxiliares, tales como minas, caminos de acceso, obras provisionales y demás.
Construcción badén de 40 mts tubular de ø 48" sobre rio Guayabal, carretera Padre Las Casas-Guayabal, provincia Azua. Se iniciará con una excavación de 64.75m3n para el fondo de badén, una excavación para la losa de entrada y salida de 32.90m3n, excavación para la zapata de aleta de 181.50m3n, un relleno de 148.50m3c para compactar la superficie. Una excavación para los dentellones de 50.40m3n.
Se suministrará un hormigón simple de 180kg/cm2 para fondo de badén de 11.66m3 y para colocar entre los tubos de 78.21m3. Se colocara un aproximado de 160m3 de hormigón armado de 280kg/cm2, que incluirá los dentellones, zapata de aleta, muro de aleta, losa de entrada y salida, losa superior, bordillos , muro frontal entre tubos y fondo de los tubos. Las alcantarillas a colocar serán de tubos de Ø48".
En los bordillos se colocarán 12.60m3 de pintura reflectiva.
Reconstrucción del camino vecinal La Siembra, Padre de las Casas, provincia Azua. Esta obra tendrá una longitud de 1.5km aproximadamente y un ancho promedio de 6.00m.
DESIGN AND ANALAYSIS OF MULTI STOREY BUILDING USING STAAD PROAli Meer
This document discusses the design and analysis of a multi-storied residential building using STAAD Pro software. It includes details on the building specifications, applicable codes, loads on the structure, and the design of structural elements like slabs, beams, columns, and footings. The analysis involves assigning materials, loads, properties and performing RCC design in STAAD Pro to verify the safety and serviceability of the building according to codes. The results show the design is safe and meets code requirements. References include design codes and textbooks.
Carlos Betts has over 25 years of experience as a civil/structural engineer specializing in the design of steel and concrete structures for major oil, gas, and LNG projects. He has extensive experience managing the analysis and design of modules, pipe racks, foundations, and other structures using various computer modeling programs. Currently, he works as a senior structural design engineer for Fluor Corporation where he is involved in transportation and design of large production modules, walkways, and foundations for an Exxon project in Texas.
Richard Hyatt is a British civil and structural engineer with over 35 years of experience in design of heavy civil engineering structures. For the past 17 years, he has specialized in assessing the safety of critical nuclear structures. He has extensive experience performing deterministic safety analyses of structures under seismic, fault, fire, and impact loads. He currently works independently reviewing safety cases and performing analyses to support nuclear facilities in the UK.
Fidel Jesús Zúñiga Romero is a Peruvian civil/structural engineer with over 15 years of experience in engineering design, project management, and construction site coordination. He has a degree in civil engineering and qualifications in structural design, project management, reinforced concrete, and steel design. His experience includes structural engineering for hydropower plants, roads, buildings, and industrial facilities. Key achievements include his work on the Cheves hydropower plant and the Interoceanic Road connection between Peru and Brazil. He is proficient in engineering software such as ETABS, SAP2000, AutoCAD, and Revit.
Ibrahim Al-Shayea has over 9 years of experience as a project engineer working on infrastructure projects in Saudi Arabia and Canada. He is currently employed by AECOM Arabia Ltd working as a project engineer on the Jeddah Stormwater Drainage Project, where he is responsible for supervising construction of a 4km channel. Previously he has worked on projects for SNC-Lavalin and was a civil/structural engineer and field supervisor on oil and gas projects. He holds a Bachelor's degree in Buildings Engineering from King Faisal University.
Akshay Rajput has over 5 years of experience in structural engineering design and project execution. He has worked on projects in the USA and Canada designing steel and concrete structures such as pipe racks, equipment foundations, and revamping existing structures. His responsibilities have included load estimation, structural analysis, connection design, and coordinating with other disciplines. He is proficient in AutoCAD, STAAD, RISA-3D, and other engineering software. Akshay holds a B.Tech in Civil Engineering from NIT Calicut and has worked on projects for companies including Fluor, Suncor Energy, and North West Redwater Partnership.
Professional Senior level structural engineer with over 25 years of experience in structural design and construction support. Experienced in structural design of industrial facilities including oil and gas plants, refineries, chemical plants, and bridges. Skilled in various structural analysis and design software. Bilingual and able to work effectively on international projects.
DESIGN AND ANALAYSIS OF MULTI STOREY BUILDING USING STAAD PROAli Meer
This document discusses the design and analysis of a multi-storied residential building using STAAD Pro software. It includes details on the building specifications, applicable codes, loads on the structure, and the design of structural elements like slabs, beams, columns, and footings. The analysis involves assigning materials, loads, properties and performing RCC design in STAAD Pro to verify the safety and serviceability of the building according to codes. The results show the design is safe and meets code requirements. References include design codes and textbooks.
Carlos Betts has over 25 years of experience as a civil/structural engineer specializing in the design of steel and concrete structures for major oil, gas, and LNG projects. He has extensive experience managing the analysis and design of modules, pipe racks, foundations, and other structures using various computer modeling programs. Currently, he works as a senior structural design engineer for Fluor Corporation where he is involved in transportation and design of large production modules, walkways, and foundations for an Exxon project in Texas.
Richard Hyatt is a British civil and structural engineer with over 35 years of experience in design of heavy civil engineering structures. For the past 17 years, he has specialized in assessing the safety of critical nuclear structures. He has extensive experience performing deterministic safety analyses of structures under seismic, fault, fire, and impact loads. He currently works independently reviewing safety cases and performing analyses to support nuclear facilities in the UK.
Fidel Jesús Zúñiga Romero is a Peruvian civil/structural engineer with over 15 years of experience in engineering design, project management, and construction site coordination. He has a degree in civil engineering and qualifications in structural design, project management, reinforced concrete, and steel design. His experience includes structural engineering for hydropower plants, roads, buildings, and industrial facilities. Key achievements include his work on the Cheves hydropower plant and the Interoceanic Road connection between Peru and Brazil. He is proficient in engineering software such as ETABS, SAP2000, AutoCAD, and Revit.
Ibrahim Al-Shayea has over 9 years of experience as a project engineer working on infrastructure projects in Saudi Arabia and Canada. He is currently employed by AECOM Arabia Ltd working as a project engineer on the Jeddah Stormwater Drainage Project, where he is responsible for supervising construction of a 4km channel. Previously he has worked on projects for SNC-Lavalin and was a civil/structural engineer and field supervisor on oil and gas projects. He holds a Bachelor's degree in Buildings Engineering from King Faisal University.
Akshay Rajput has over 5 years of experience in structural engineering design and project execution. He has worked on projects in the USA and Canada designing steel and concrete structures such as pipe racks, equipment foundations, and revamping existing structures. His responsibilities have included load estimation, structural analysis, connection design, and coordinating with other disciplines. He is proficient in AutoCAD, STAAD, RISA-3D, and other engineering software. Akshay holds a B.Tech in Civil Engineering from NIT Calicut and has worked on projects for companies including Fluor, Suncor Energy, and North West Redwater Partnership.
Professional Senior level structural engineer with over 25 years of experience in structural design and construction support. Experienced in structural design of industrial facilities including oil and gas plants, refineries, chemical plants, and bridges. Skilled in various structural analysis and design software. Bilingual and able to work effectively on international projects.
The document provides information about a BIM coordinator with over 9 years of experience in managing electrical, mechanical, plumbing, and architectural design projects. They have extensive experience with BIM software like Revit, AutoCAD, and Navisworks. Recent projects include residential towers in Saudi Arabia and Qatar. Key responsibilities include 3D coordination of MEP systems, clash detection, generating shop drawings, and managing BIM libraries and templates.
The document is a resume for Jeevan Hingne Havagirao seeking assignments in designing steel structures. It summarizes his qualifications as having an M.E. in Structures and B.E. in Civil Engineering with 5 years of experience designing R.C.C. and steel structures. It also lists his software skills and past work experience with various companies designing various steel and concrete structures.
Akash J. Vora is a structural engineer with 2 years of experience in oil and gas and solar design engineering. He has expertise in structural analysis and design of pipe racks, equipment foundations, solar structures, and more using software like STAAD and AutoCAD. Some of his projects include designing fixed and rotating solar tracker systems, an ETP plant module structure, and special pipe support structures for projects in Russia and the US.
Aniket Dube has over 2 years of experience as a structural engineer consultant with a master's degree in structural engineering. He has expertise in structural design software like STAAD Pro, ANSYS, AutoCAD, Tekla Structures, and Revit. Some of his project experience includes designing steel and concrete structures for manufacturing plants in Thailand and Korea according to international codes. He also has experience with residential, commercial, and industrial building projects in India.
The applicant, Ajay Patil, is applying for the position of Senior Structural/Civil Designer. He has over 20 years of experience in structural and civil design for various industrial projects using software like AutoCAD. He introduces himself as a hardworking designer seeking an opportunity to prove himself and contribute to organizational goals. He provides his resume and is available for an interview.
* A dynamic, versatile and results-oriented Civil Structural Engineer with over 8+ years of outstanding experience including experience in GCC in spearheading initiatives in the Conceptual design, structural analysis, Detailed Engineering, constructability studies and supervision for several types of (Concrete & Steel) structures as EPC, Feed projects in oil & gas and as well as complex Mixed-use buildings in construction area. Seeking a challenging position in Civil Structural Engineering (CSE) Multi-large Engineering Project within a professional firm to contribute accrued skills in formulating organizational objectives and charting a mutually beneficial growth path.
* Hard working and focused, honest and reliable, good effective interpersonal communication skills to work in a multi‐cultural environment, good team management skills
* Have the ability to adopt any new technologies, product or skills in relatively short time through employment & self‐study, ability to Accept and Learn From Criticism
This document provides information for the structural analysis and design of an industrial building. It includes:
- Details on the loads, materials, and analysis programs used.
- An analysis of wind loads on the structure.
- Structural analysis models and numerical analysis.
- Structural design of foundation elements and superstructure.
- Structural plans for the building.
- Background on Industrias Genesis, the engineering firm that performed the work.
This document describes the design of a residential villa building with 3 stories using STAAD-Pro software. It discusses the introduction, applicable design codes, software used, project details, structural design objectives, material properties, loads, and the analysis process. The analysis is performed on the RCC structure in STAAD-Pro by assigning loads, properties, and applying the IS 456-2000 code. The design of slab, beams, columns, footing, and staircase are done as per Indian codes and standards. The STAAD-Pro model results in reinforcement areas comparable to manual calculations.
- John K. Jacob is a senior civil structural designer and draughting technician with over 32 years of experience in oil & gas, civil, architectural, and infrastructure projects.
- He has extensive experience preparing civil and structural drawings using MicroStation and AutoCAD for various oil & gas facilities and industrial projects in multiple countries.
- Some of the major projects he has worked on include projects for QP, Petrofac, ADCO, KOC, and Qatar Petroleum.
T.Rama Satyanarayana's CV summarizes his 21+ years of experience in civil and structural design for industrial projects. He has worked on projects in India, Saudi Arabia, and Oman for companies like GS E&C, Samsung Engineering, and Simon Carves. His responsibilities have included 3D modeling, foundation design, steel structures, and serving as a design supervisor to lead project teams. He is proficient in software like PDS, PDMS, SP3D, AutoCAD, and has extensive experience with international codes and standards.
EDUARDO H. PARE DESIGN CONSIDERATIONS TO AVOID WATER LEAKAGES ON BUILDINGEduardo H. Pare
The document discusses proper analysis and design of structures to avoid water leakages. It states that structures and foundations must be analyzed and designed accounting for short- and long-term settlements, including differential settlement, as these stresses can cause cracks and movements. It also states that if concrete structures are designed and constructed properly according to the specified procedures, waterproofing products may not be needed as the concrete itself can become waterproof, allowing substantial cost savings. The author provides his credentials and experience designing various structures.
This curriculum vitae summarizes the career and qualifications of T N Murthy. He has over 8 years of experience as a structural designer for oil and gas projects. His experience includes 3D modeling, detailed shop drawing preparation, fabrication drawings, material reports, and coordinating with fabrication shops. He is proficient in Tekla Structure, BOCAD, AutoCAD, and has basic knowledge of PDMS. His educational background includes a degree in Civil Engineering.
Salahudin Al Ghazi Muhammed provides his contact information and summaries his career experience. He has over 13 years of experience as a structural design engineer, design manager, and technical manager working on various building projects in Oman, Gabon, Saudi Arabia, and Dubai. His responsibilities have included structural design, site supervision, coordination, obtaining approvals, and ensuring design quality. He lists his educational qualifications and skills in areas like AutoCAD, STAAD Pro, structural analysis software and codes.
Session 5 design of rcc structural elements PROF YADUNANDANAjit Sabnis
This document provides an overview of designing reinforced concrete (RCC) elements such as slabs, beams, columns, footings, staircases, and water tanks. It begins with defining design as sizing the structure to have a low probability of limit states like failure or excessive deformation being exceeded. Probability and real-world parameters like strain are considered rather than deterministic calculations. The general design process is outlined as preliminary sizing based on codes, defining loads and combinations, analyzing to get member forces, and designing reinforcement. Guidelines for preliminary slab, beam, and column sizing are provided based on span-to-depth ratios. Different slab types like one-way and two-way systems are also introduced.
DESIGN OF RCC ELEMENTS SESSION 5 PROF. YADUNANDANAjit Sabnis
This document provides an overview of the design of reinforced concrete (RCC) elements such as slabs, beams, columns, footings, staircases, and water tanks. It begins with introducing the concept of design in RCC, which has evolved from a deterministic to a probabilistic approach based on limit states. The general design procedure is then outlined, involving modeling the structure, specifying loads and load combinations, analyzing to obtain member forces, and designing individual elements. Guidelines for preliminary sizing of slab thickness, beam depth, and column dimensions are provided. Finally, the document discusses the different types of slabs and provides equations for calculating design moments in one-way and two-way slabs.
This document provides a summary of Muhammad Sohail's professional experience and qualifications. It outlines his educational background, including master's and bachelor's degrees in structural engineering. It then details his current role as a design review engineer and past roles including senior engineer and design engineer. For each role, it lists responsibilities, achievements, and major projects worked on related to structural design, analysis, technical coordination, and project management. It also includes a list of software, certification, and language skills.
Josh Newmaster is a senior structural designer with over 15 years of experience in structural steel and reinforced concrete design. He has expertise in 3D modeling, drawing extractions, and design drawing preparation using various CAD software. He aims to produce high quality design work under budget and ahead of schedule for clients. Newmaster has worked on projects in industries such as hydrocarbons, petrochemicals, modular design, and arctic design.
The document provides information about a BIM coordinator with over 9 years of experience in managing electrical, mechanical, plumbing, and architectural design projects. They have extensive experience with BIM software like Revit, AutoCAD, and Navisworks. Recent projects include residential towers in Saudi Arabia and Qatar. Key responsibilities include 3D coordination of MEP systems, clash detection, generating shop drawings, and managing BIM libraries and templates.
The document is a resume for Jeevan Hingne Havagirao seeking assignments in designing steel structures. It summarizes his qualifications as having an M.E. in Structures and B.E. in Civil Engineering with 5 years of experience designing R.C.C. and steel structures. It also lists his software skills and past work experience with various companies designing various steel and concrete structures.
Akash J. Vora is a structural engineer with 2 years of experience in oil and gas and solar design engineering. He has expertise in structural analysis and design of pipe racks, equipment foundations, solar structures, and more using software like STAAD and AutoCAD. Some of his projects include designing fixed and rotating solar tracker systems, an ETP plant module structure, and special pipe support structures for projects in Russia and the US.
Aniket Dube has over 2 years of experience as a structural engineer consultant with a master's degree in structural engineering. He has expertise in structural design software like STAAD Pro, ANSYS, AutoCAD, Tekla Structures, and Revit. Some of his project experience includes designing steel and concrete structures for manufacturing plants in Thailand and Korea according to international codes. He also has experience with residential, commercial, and industrial building projects in India.
The applicant, Ajay Patil, is applying for the position of Senior Structural/Civil Designer. He has over 20 years of experience in structural and civil design for various industrial projects using software like AutoCAD. He introduces himself as a hardworking designer seeking an opportunity to prove himself and contribute to organizational goals. He provides his resume and is available for an interview.
* A dynamic, versatile and results-oriented Civil Structural Engineer with over 8+ years of outstanding experience including experience in GCC in spearheading initiatives in the Conceptual design, structural analysis, Detailed Engineering, constructability studies and supervision for several types of (Concrete & Steel) structures as EPC, Feed projects in oil & gas and as well as complex Mixed-use buildings in construction area. Seeking a challenging position in Civil Structural Engineering (CSE) Multi-large Engineering Project within a professional firm to contribute accrued skills in formulating organizational objectives and charting a mutually beneficial growth path.
* Hard working and focused, honest and reliable, good effective interpersonal communication skills to work in a multi‐cultural environment, good team management skills
* Have the ability to adopt any new technologies, product or skills in relatively short time through employment & self‐study, ability to Accept and Learn From Criticism
This document provides information for the structural analysis and design of an industrial building. It includes:
- Details on the loads, materials, and analysis programs used.
- An analysis of wind loads on the structure.
- Structural analysis models and numerical analysis.
- Structural design of foundation elements and superstructure.
- Structural plans for the building.
- Background on Industrias Genesis, the engineering firm that performed the work.
This document describes the design of a residential villa building with 3 stories using STAAD-Pro software. It discusses the introduction, applicable design codes, software used, project details, structural design objectives, material properties, loads, and the analysis process. The analysis is performed on the RCC structure in STAAD-Pro by assigning loads, properties, and applying the IS 456-2000 code. The design of slab, beams, columns, footing, and staircase are done as per Indian codes and standards. The STAAD-Pro model results in reinforcement areas comparable to manual calculations.
- John K. Jacob is a senior civil structural designer and draughting technician with over 32 years of experience in oil & gas, civil, architectural, and infrastructure projects.
- He has extensive experience preparing civil and structural drawings using MicroStation and AutoCAD for various oil & gas facilities and industrial projects in multiple countries.
- Some of the major projects he has worked on include projects for QP, Petrofac, ADCO, KOC, and Qatar Petroleum.
T.Rama Satyanarayana's CV summarizes his 21+ years of experience in civil and structural design for industrial projects. He has worked on projects in India, Saudi Arabia, and Oman for companies like GS E&C, Samsung Engineering, and Simon Carves. His responsibilities have included 3D modeling, foundation design, steel structures, and serving as a design supervisor to lead project teams. He is proficient in software like PDS, PDMS, SP3D, AutoCAD, and has extensive experience with international codes and standards.
EDUARDO H. PARE DESIGN CONSIDERATIONS TO AVOID WATER LEAKAGES ON BUILDINGEduardo H. Pare
The document discusses proper analysis and design of structures to avoid water leakages. It states that structures and foundations must be analyzed and designed accounting for short- and long-term settlements, including differential settlement, as these stresses can cause cracks and movements. It also states that if concrete structures are designed and constructed properly according to the specified procedures, waterproofing products may not be needed as the concrete itself can become waterproof, allowing substantial cost savings. The author provides his credentials and experience designing various structures.
This curriculum vitae summarizes the career and qualifications of T N Murthy. He has over 8 years of experience as a structural designer for oil and gas projects. His experience includes 3D modeling, detailed shop drawing preparation, fabrication drawings, material reports, and coordinating with fabrication shops. He is proficient in Tekla Structure, BOCAD, AutoCAD, and has basic knowledge of PDMS. His educational background includes a degree in Civil Engineering.
Salahudin Al Ghazi Muhammed provides his contact information and summaries his career experience. He has over 13 years of experience as a structural design engineer, design manager, and technical manager working on various building projects in Oman, Gabon, Saudi Arabia, and Dubai. His responsibilities have included structural design, site supervision, coordination, obtaining approvals, and ensuring design quality. He lists his educational qualifications and skills in areas like AutoCAD, STAAD Pro, structural analysis software and codes.
Session 5 design of rcc structural elements PROF YADUNANDANAjit Sabnis
This document provides an overview of designing reinforced concrete (RCC) elements such as slabs, beams, columns, footings, staircases, and water tanks. It begins with defining design as sizing the structure to have a low probability of limit states like failure or excessive deformation being exceeded. Probability and real-world parameters like strain are considered rather than deterministic calculations. The general design process is outlined as preliminary sizing based on codes, defining loads and combinations, analyzing to get member forces, and designing reinforcement. Guidelines for preliminary slab, beam, and column sizing are provided based on span-to-depth ratios. Different slab types like one-way and two-way systems are also introduced.
DESIGN OF RCC ELEMENTS SESSION 5 PROF. YADUNANDANAjit Sabnis
This document provides an overview of the design of reinforced concrete (RCC) elements such as slabs, beams, columns, footings, staircases, and water tanks. It begins with introducing the concept of design in RCC, which has evolved from a deterministic to a probabilistic approach based on limit states. The general design procedure is then outlined, involving modeling the structure, specifying loads and load combinations, analyzing to obtain member forces, and designing individual elements. Guidelines for preliminary sizing of slab thickness, beam depth, and column dimensions are provided. Finally, the document discusses the different types of slabs and provides equations for calculating design moments in one-way and two-way slabs.
This document provides a summary of Muhammad Sohail's professional experience and qualifications. It outlines his educational background, including master's and bachelor's degrees in structural engineering. It then details his current role as a design review engineer and past roles including senior engineer and design engineer. For each role, it lists responsibilities, achievements, and major projects worked on related to structural design, analysis, technical coordination, and project management. It also includes a list of software, certification, and language skills.
Josh Newmaster is a senior structural designer with over 15 years of experience in structural steel and reinforced concrete design. He has expertise in 3D modeling, drawing extractions, and design drawing preparation using various CAD software. He aims to produce high quality design work under budget and ahead of schedule for clients. Newmaster has worked on projects in industries such as hydrocarbons, petrochemicals, modular design, and arctic design.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
artificial intelligence and data science contents.pptxGauravCar
What is artificial intelligence? Artificial intelligence is the ability of a computer or computer-controlled robot to perform tasks that are commonly associated with the intellectual processes characteristic of humans, such as the ability to reason.
› ...
Artificial intelligence (AI) | Definitio
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Discover the latest insights on Data Driven Maintenance with our comprehensive webinar presentation. Learn about traditional maintenance challenges, the right approach to utilizing data, and the benefits of adopting a Data Driven Maintenance strategy. Explore real-world examples, industry best practices, and innovative solutions like FMECA and the D3M model. This presentation, led by expert Jules Oudmans, is essential for asset owners looking to optimize their maintenance processes and leverage digital technologies for improved efficiency and performance. Download now to stay ahead in the evolving maintenance landscape.
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Comparative analysis between traditional aquaponics and reconstructed aquapon...
Portafolio JJ Org.pptx
1. Eng. Paola Carolina
Pérez Batista.
Master in BIM Management
Master in Structural Engineering & Construction
PROJECT PORTFOLIO.
2. Eng. Paola Pérez
Batista, MSc.
EXECUTIVE PROFILE
An engineer and domain expert in Seismic/Structural
engineering with 6 years of experience in the design and
evaluation of various types sizes (small/Medium/Tall) of
infrastructure in Building sectors.
EDUCATION
Masters degree in BIM
Management in
Infrastructure and Civil
Engineering Universidad
Católica de Murcia.
Master degree in Structural
Engineering and
Construction Universitat
Politecnica de Catalunya
Bachelor´s degree, Civil
Engineering Instituto
Tecnológico de Santo
Domingo
KEY SKILLS
Seismic Engineering
Concrete Structures
Steel Structures
Composite Structures
Wood Structures
Communication Skills
Challenges Solutions
SOFTWARE SKILL
CSI-ETABS
CSI-SAFE
TEKLA STRUCTURES
REVIT-STRUCTURE
CSI-SAP 2000
CYPECAD
AUTODESK INFRAWORKS
BENTLEY POWER CIVIL 3D
LIMCON
RAM CONNECTION
IDEA STATICA
MIDAS GenCivilFEA
RISA
MICROSOFT PROJECT
MICROSOFT OFFICE
Español
English
Italiano
Deutsch
LANGUAGES ILLS
3. Structural Supervision
Rafael A. Sánchez
Building.
Client: Grupo Constructor del Caribe.
Year: 2014.
Status: Completed.
Structure System: Reinforced Concrete Special
Moment Frame
Brief Description: Structural supervision during
construction process of a 12 Storey Building.
Specifically, it has been verified all structural
requirements such as overlapping lenght, vertical
alingment, minimun cover to local
reinforcement, steel stirrups distance, etcetera.
Standards: Building Code Requirements for
Structural Concrete ACI-318-14, Reglamento para
el análisis y diseño sísmico de estructuras R-001,
Reglamento de Hormigón R-033.
ON
SITE
SUPERVISION
4. Municipal Police Offices (Ferrara, Italy)
Client: Universitat Politécnica de Catalunya.
Year: 2016.
Status: Completed.
Structure System: Ordinary Steel Moment Frame
reinforced with Buckling Restrained Axial Damper
(BRAD).
Brief Description: It consisted in a Reliability
comparison among 3 earthquake parameters
(Magnitude and Radio, Peak Ground Acceleration
& Arias Intensity) of a Nonlinear Dynamic analysis
of a seismically retrofitted reinforced concrete
building.
Software: Midas GEN.
Standards: Eurocode 8 & Norme Techniche per le
Costruzioni 08 (NTC08).
NON
LINEAR
DYNAMIC
ANALYSIS
FOR
SEISMIC
RETROFITTING
5. Spazio & Bellini Towers (Guayaquil, Ecuador)
Client: Universitat Politécnica de Catalunya.
Year: 2016.
Status: Completed.
Structure System: Special reinforced
concrete moment frame .
Brief Description: Seismic design verification
through numerical modelling and structural
plans comparison attending to regulations in
force at the time.
Software: CSI ETABS & CSI SAFE.
Standard: Normativa Ecuatoriana de la
Construcción – Estructuras de Hormigón
Armado (NEC-SE-HM)
TWO
RESIDENTIAL
TOWERS
SEISMIC
DESIGN
VERIFICATION
6. Terrazas del Parque Residential (SD, REP. DOM.)
Client: Grupo Constructor del Caribe.
Year: 2016.
Status: Completed.
Structure System: Special reinforced concrete shear
walls
Brief Description: 9 floors residential tower (2586
square meters) seismic reinforced concrete
structure, estimation vertical and horizontal loads,
stress and deformation verification.
Software: CSI ETABS & CSI SAFE.
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001, Reglamento de
Hormigón R-033.
RESIDENTIAL
TOWER
SEISMIC
DESIGN
7. Colinas del Arroyo (Residential Project)
Client: Grupo Constructor del Caribe.
Year: 2017.
Status: Completed
Structure System: Special Reinforced Concrete Shear
Walls.
Brief Description: Seismic reinforced concrete
structure, estimation vertical and horizontal loads,
stress and deformation verification, drawing up plans
for construction.
Software: CSI ETABS & CSI SAFE.
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001, Reglamento de
Hormigón R-033.
RESIDENTIAL
TOWER
SEISMIC
DESIGN
8. MILLENIUM XXI RESIDENCES
Client: Grupo Constructor del Caribe.
Year: 2017.
Status: Completed
Structure System: Special Reinforced Concrete Shear
Walls.
Brief Description: Seismic reinforced concrete structure,
estimation vertical and horizontal loads, stress and
deformation verification, drawing up plans for
construction.
Software: CSI ETABS & CSI SAFE.
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño sísmico
de estructuras R-001, Reglamento de Hormigón R-033.
TWO
RESIDENTIAL
TOWERS
SEISMIC
DESIGN
VERIFICATION
27. RUMI RESIDENTIAL
Client: Constructora Meca S.R.L
Year: 2017 -2019
Role: Structural Designer
Structure System: Dual System: Special reinforced
concrete moment frame and Masonry
Brief Description: Residential project with a surface
16,145.87 ft2, four buildings, each one has 3 floors
and 4,197.93 ft2. Seismic reinforced concrete
structure, vertical and horizontal loads estimation,
stress and deformation verification, drawing up plans
for construction.
Software: CSI ETABS, CSI SAFE, CYPECAD
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
28. MARDOM INDUSTRIAL WAREHOUSE
Client: Maritima Dominicana / Estudio Bianna Montas
Year: 2018
Role: Structural Designer
Structure System: Ordinary Steel Moment Frame reinforced
Brief Description: Warehouse in steel structure of 4,628.48 ft2 on
existing concrete building of 6,418.84 ft2. Structural vulnerability
assessment of concrete building to determine if the construction of
the steel warehouse on the second floor is feasible. Geometric
survey, structural reinforcement scanning, extraction and breaking
of concrete cores, sclerometry (Schmidt hammer), earthquake-
resistant analysis, numerical modeling, and preparation of
construction plans.
Software: CSI ETABS, CSI SAFE, BENTLEY RAM CONNECTION,
BENTLEY LIMCON CONNECTION.
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural
Steel Buildings Chapter J. Design of Connections, Reglamento para
el análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Diseño construcción de edificios en mampostería R-027 (DR),
Reglamento: Análisis, fabricación y montaje de estructuras de acero
R-028 (DR), Reglamento de Hormigón R-033 (DR).
29. STRUCTURAL REINFORCEMENT IN
MARDOM OFFICES
Client: Maritima Dominicana / Estudio Bianna Montas
Year: 2018
Role: Structural Designer
Structure System: Ordinary Steel Moment Frame reinforced
Brief Description: Steel reinforcing frame in office building.
Structural vulnerability assessment of concrete building to
determine if the steel reinforcing frame is need it.
Software: CSI ETABS, CSI SAFE, BENTLEY RAM CONNECTION,
BENTLEY LIMCON CONNECTION.
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural Steel
Buildings Chapter J. Design of Connections, Reglamento para el
análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Diseño construcción de edificios en mampostería R-027 (DR),
Reglamento: Análisis, fabricación y montaje de estructuras de acero
R-028 (DR), Reglamento de Hormigón R-033 (DR).
30. PLATE DESIGN FOR TRUCK WEIGHING
SCALE IN MARDOM
Client: Maritima Dominicana /
Estudio Bianna Montas
Year: 2019
Role: Structural Design Advisor
Brief Description: Geometric survey,
analysis of fatigue cycles and load
cycles, numerical modeling and
preparation of construction plans
Software: SolidWorks
31. INCOCEGLA
Client: INCOCEGLA / OPTICAL Y MEDICAL SUPPLY ROMA
Year: 2019-2022
Role: Structural Design Advisor
Structure System: Special Steel Moment Frame reinforced, Special
reinforced concrete moment frame, Special Reinforced Concrete Shear
Walls
Brief Description: Structural vulnerability assessment of 8 buildings with
more than 171,685.00 ft2 of construction to provide health services, with
buildings dating from the 1980s to the present, with different load-bearing
systems (steel frames, concrete frames, concrete walls and load-bearing
masonry).
Geometric survey, structural reinforcement scanning, extraction and
breaking of concrete cores, sclerometry (Schmidt hammer), earthquake-
resistant analysis, numerical modeling, construction process verification,
determination of required structural reinforcements.
Software: CSI ETABS, CSI SAFE, IDEA STATICA
Standard: Building Code Requirements for Structural Concrete ACI-318-14,
Guide to Presenting Reinforcing Steel Design Details ACI-315-08, Minimum
Design Loads and Associated Criteria for Buildings and Other Structures
ASCE 7-16, AISC Steel Construction Manual ASD/LRFD 14TH, ANSI/AISC
360-05: Specification for Structural Steel Buildings Chapter J. Design of
Connections, Reglamento para el análisis y diseño sísmico de estructuras
R-001 (DR), Reglamento: Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento: Análisis, fabricación y montaje de estructuras de
acero R-028 (DR), Reglamento de Hormigón R-033 (DR).
32. Monte Rio Plaza
Client: HIELO Y AGUA MONTE RIO SRL
(ICE & WATER)
Year: 2021
Role: Building License Advisor
Structure System: Special reinforced
concrete moment frame
Brief Description: Two-Story comercial
space of 1830 ft2. Preparation of
sanitary and electrical plans with their
respective reports, management and
monitoring of the project approval
process for the issuance of
corresponding construction permits.
33. Costa Azul MiniMarket
Client: Costa Azul MiniMarket
Year: 2018
Role: Structural Design
Structure System: Special reinforced concrete
moment frame
Brief Description: One-Story concrete structure with
2018 ft2. Seismic reinforced concrete structure,
vertical and horizontal loads estimation, stress and
deformation verification, drawing up plans for
construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
34. APARTMENT BUILDING ARCH. MATEO
Client: ARCHITECT E. MATEO
Year: 2019
Role: Structural Design
Structure System: Dual System: Special reinforced
concrete moment frame and Masonry
Brief Description: Four-Story residential building
with 7,847 ft2. Seismic reinforced concrete structure,
vertical and horizontal loads estimation, stress and
deformation verification, drawing up plans for
construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
35. Abreu Castillo Residence
Client: Cayacoa Dairy Products
Year: 2017
Role: Structural Design
Structure System: Dual System: Special reinforced
concrete moment frame and Masonry
Brief Description: Two-Story house with 4,920 ft2.
Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation
verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
36. HACIENDA SANTIAGO APARTMENT
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design and Construction Supervisor
Structure System: Dual System: Special reinforced
concrete moment frame and Masonry
Brief Description: Two-Story building with 2,368 ft2.
Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation
verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
37. HACIENDA SANTIAGO LUXURY HOME
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design
Structure System: Dual System: Special reinforced
concrete moment frame and Masonry
Brief Description: Two-Story building with 5,705 ft2.
Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation
verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
38. HACIENDA SANTIAGO VIEWPOINT
Client: DEGMON INGENIERIA
Year: 2019
Role: Structural Design and Construction Supervisor
Structure System: Special reinforced concrete
moment frame
Brief Description: Two-Story building with 1,076 ft2.
Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation
verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
39. HACIENDA SANTIAGO POOL BUILDINGS
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design and Construction Supervisor
Structure System: Special reinforced concrete
moment frame
Brief Description: Set of three structures: Dining
room (269 ft2), kitchen (183 ft2) and bar (172 ft2)
that accompany the pool area. Seismic reinforced
concrete structure, vertical and horizontal loads
estimation, stress and deformation verification,
drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en mampostería
R-027 (DR), Reglamento de Hormigón R-033 (DR)
40. HACIENDA SANTIAGO BASKETBALL
COURT
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design and Construction Supervisor
Structure System: Ordinary Steel Moment Frame reinforced
Brief Description: Design of steel support and concrete plank for
basketball court. Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation verification,
drawing up plans for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural Steel
Buildings Chapter J. Design of Connections, Reglamento para el
análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Diseño construcción de edificios en mampostería R-027 (DR),
Reglamento: Análisis, fabricación y montaje de estructuras de acero
R-028 (DR), Reglamento de Hormigón R-033 (DR).
41. HACIENDA DOÑA GUILLE STABLE AND
GAZEBO
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design and Construction Supervisor
Structure System: Dual System: Special reinforced concrete
moment frame and Masonry.
Brief Description: Set of three buildings with light roof of 3,488 ft2.
Seismic reinforced concrete structure, vertical and horizontal loads
estimation, stress and deformation verification, drawing up plans
for construction.
Software: CSI ETABS, CSI SAFE
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural Steel
Buildings Chapter J. Design of Connections, Reglamento para el
análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Diseño construcción de edificios en mampostería R-027 (DR),
Reglamento: Análisis, fabricación y montaje de estructuras de acero
R-028 (DR), Reglamento de Hormigón R-033 (DR).
42. RUBEN LUXURY VILLA
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Design and Construction Supervisor
Structure System: Special reinforced concrete moment
frame
Brief Description: Two-level villa with perimeter soil
stabilization wall, three-story social area with pool,
perimeter retaining wall and 7,642 ft2 of construction.
Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation
verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE, CYPECAD
Standard: Building Code Requirements for Structural
Concrete ACI-318-14, Minimum Design Loads and
Associated Criteria for Buildings and Other Structures
ASCE 7-16, Reglamento para el análisis y diseño sísmico
de estructuras R-001 (DR), ), Reglamento: Diseño
construcción de edificios en mampostería R-027
(DR), Reglamento de Hormigón R-033 (DR)
43. industrial warehouses Hato Nuevo
Client: DEGMON INGENIERIA
Year: 2020
Role: Structural Designer
Structure System: Ordinary Steel Moment Frame reinforced
Brief Description: Set of two industrial steel buildings of 6,975 ft2
and 3,875 ft2. Seismic reinforced concrete structure, vertical and
horizontal loads estimation, stress and deformation verification,
drawing up plans for construction.
Software: CSI ETABS, CSI SAFE, BENTLEY RAM CONNECTION,
BENTLEY LIMCON CONNECTION, IDEA STATICA
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural
Steel Buildings Chapter J. Design of Connections, Reglamento para
el análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Análisis, fabricación y montaje de estructuras de acero R-028 (DR),
Reglamento de Hormigón R-033 (DR).
44. industrial warehouse Terdeco
Client: TERDECO SRL
Year: 2019-2022
Role: Structural Designer
Structure System: Ordinary Steel Moment Frame reinforced
Brief Description: Industrial building in steel frames and deep
foundations (piles) of 11,431 ft2. Seismic reinforced concrete
structure, vertical and horizontal loads estimation, stress and
deformation verification, drawing up plans for construction.
Software: CSI ETABS, CSI SAFE, BENTLEY RAM CONNECTION,
BENTLEY LIMCON CONNECTION, IDEA STATICA
Standard: Building Code Requirements for Structural Concrete ACI-
318-14, Guide to Presenting Reinforcing Steel Design Details ACI-
315-08, Minimum Design Loads and Associated Criteria for Buildings
and Other Structures ASCE 7-16, AISC Steel Construction Manual
ASD/LRFD 14TH, ANSI/AISC 360-05: Specification for Structural
Steel Buildings Chapter J. Design of Connections, Reglamento para
el análisis y diseño sísmico de estructuras R-001 (DR), Reglamento:
Análisis, fabricación y montaje de estructuras de acero R-028 (DR),
Reglamento de Hormigón R-033 (DR).
45. FRONT FACADE OF DEL ROSARIO
RESIDENCE
Client: MARIA DEL ROSARIO
Year: 2018
Role: GENERAL DESIGN AND
Construction
Brief Description: Architectural
design, planning, management and
coordination of steel and concrete
construction work, as well as cost
analysis and work budget.
46. ROOF WORK OF DEL ROSARIO
RESIDENCE
Client: MARIA DEL ROSARIO
Year: 2020
Role: Contractor
Brief Description: Ceiling concreting
and elastomeric waterproofing
application
47. REPAIR OF THE ELECTRICAL AND SANITARY
NETWORK OF DEL ROSARIO RESIDENCE
Client: MARIA DEL ROSARIO
Year: 2019
Role: Contractor
Brief Description: Change of the
house electrical network,
replacement of breakers and
installation of Main Break, cleaning
of septic chamber, grease trap, as
well as unclogging the pipes.
48. Design and build of JMO Group 3500 Lt
Cistern
Client: JMO GROUP
Year: 2019
Role: Structural Design and Construction
Structure System: Intermediate masonry walls
Brief Description: Design and construction of a
78 ft2 underground water storage facility.
Software: CSI ETABS, CSI SAFE, CYPECAD
Standard: Building Code Requirements for
Structural Concrete ACI-318-14, Minimum
Design Loads and Associated Criteria for
Buildings and Other Structures ASCE 7-16,
Reglamento para el análisis y diseño sísmico
de estructuras R-001 (DR), ), Reglamento:
Diseño construcción de edificios en
mampostería R-027 (DR), Reglamento de
Hormigón R-033 (DR)
49. WOODEN PERGOLA ON Vanessa
residential
Client: HILDA HERNANDEZ
Year: 2019
Role: Structural Design and Construction
Structure System: Timber frames
Brief Description: Design and construction of
1,076.39 ft2 pergola, in Timber elements, roofed in
polycarbonate sheets.
Software: CSI ETABS
Standard: Minimum Design Loads and Associated
Criteria for Buildings and Other Structures ASCE 7-16,
National Desing Specification for Wood Constructions
NDS-2018, Wood Frame Construction Manual
WFCM-2018, Reglamento para el análisis y diseño
sísmico de estructuras R-001 (DR), Reglamento para
diseño y construcción de edificaciones en
madera estructural R-029 (DR).
50. Remodeling OF AQUINO RESIDENCE
Client: Dr. Yubelkys Aquino
Year: 2020
Role: Contractor
Brief Description: Design and
substitution of the PVC for
polypropylene pipes, correction of
leaks and remodeling of three
bathrooms in a two-story house of
5,651.05 ft2.
51. Remodeling OF AVALO MEJÍA RESIDENCE
Client: Ramon Avalo
Year: 2019
Role: Contractor
Brief Description: Design and
substitution of the PVC for
polypropylene pipes, correction of
leaks and remodeling of three
bathrooms in a two-story house of
5,651.05 ft2.