Information & Details
The purpose of this course is to provide the participant with the tools and criteria for the design of transmission tower and portal
for the design of transmission towers foundations and electric substation gantries, using advanced engineering
using advanced engineering software such as Tower, PLSCadd and Caisson.
Caisson. International standards such as
ASCE 74, ASCE 113, ASCE 48, IEEE 693, ASCE 10,
RUS Bulletin 200 among others. The towers will be modeled and
the load trees generated at the points of attachment of the
the fixing points of the phase and guard conductors, both vertically and horizontally, in the
in vertical, horizontal and longitudinal direction with the Plscad
longitudinal direction with the Plscadd software, then these loads will be transferred to the whole structure with the tower software.
the whole structure with the tower software and finally the loads transferred to the legs of the structures are
the caisson software to design the foundations. The
load requirements will be performed for various assumptions, including maximum wind, wind with ice, wind with ice, wind only, and wind with ice.
maximum wind, wind with ice, wind only, uplift. Foundations will be designed for self-supporting
will be designed for self-supported transmission structures, cable-stayed and portal frames for transmission
transmission lines and substations.
Translated with www.DeepL.com/Translator (free version)
➢Electrical Engineers
➢ Technical managers, project managers, electrical study managers, designers,
Consultants, Contractors, Supervisors, Residents.
➢ Mechanical engineers, Power system engineers, Analysts, Operators,
Professional Technicians.
➢ Operation and Planning professional of electrical power systems.
➢ Maintenance professional.
➢ Related professionals and students in general. Operation and Planning Professional
of electrical power systems.
Maintenance professional. Related professionals and students in general.
Kamal Rafael Arreaza
Graduated in Electrical Engineering from Universidad de Oriente (UDO), Venezuela. With a Master’s Degree in Electrical Engineering from Universidad Nacional Experimental Politécnica (UNEXPO), Venezuela.
(UNEXPO), Venezuela. With 13 years of experience in the design and construction of large engineering projects. With experience in management, design and engineering review, inspection and construction of electrical substations, transmission lines, generation plants, motor control centers for the oil and gas industry.
control center for the oil, gas and mining industry, variable frequency drives for medium voltage motors. Testing of high voltage electrical equipment in several countries, including China,
USA, COLOMBIA AND VENEZUELA. USA, Colombia and Venezuela, on behalf of the client.
Vicente Assanti Vicente Assanti Estévez. Civil Engineer, graduated from Universidad Central de Venezuela, mention in Structures, 1990.
Venezuela, mention in Structures, 1990. More than 25 years of work experience in the oil industry.
industry. Worked as Project Engineer in Petróleos de Venezuela, S.A. for ten years.
ten years. Member years 2013, 2014 and 2015 of the Technical Standards Committee of INTEVEP/PDVSA in the civil discipline and seismic calculation.
civil discipline and seismic-resistant calculation of atmospheric tanks, at the Furrial Major Projects
Furrial Major Projects, specifically in the period 2012-2016 for the NIF Project:
Reviewer/Approver of the Design of foundations of production separators, foundations of
and gas cooler foundations, gas scrubber foundations, gas scrubber support foundations, and gas scrubber foundations.
www.electroenergyic.com
Piperack structures and piping supports, equipment platforms, vessel and valve handling
valve handling, pipeline area walkways, raw water drainage system, and open drainage system for
water drainage system and open contaminated water drainage system. Calculator for the foundation of the 54 meter high Flare
of the 54 meter high Flare associated with the NIF Project. Reviewer/Approver of the 4
Storage Tank Yard associated with the NIF Project. Reviewer/Approver of the structural
Structural calculations for the 115 kV Single Line Transmission Line from the Furrial substation of EDELCA to the
Furrial substation of EDELCA to the NIF substation (two ACAR conductors 1,024.5 kcmil per phase, one OPPF type guard cable per phase, one OPPF type guard cable per phase, one OPPF type guard cable per phase).
phase, one OPGW type guard cable), 115 kV Double Terna Transmission Line from NIF Electric Substation to NIF Electric
NIF Electric Substation to IGF Electric Substation (one conductor per phase ACAR 500 kcmil per phase, two cables
kcmil per phase, two guard cables, one OPGW type, another Alumoweld 7 No. 9 type) and deviation of the 115 kV Double Terna Transmission Line to
115 kV Double Line Transmission Line: Furrial – Amana – Jusepín II to NIF substation (two conductors ACAR 1.0.0 kcmil per phase, one OPGW type, one Alumoweld 7 No. 9 type).
(two ACAR conductors 1,024.5 kcmil per phase, two OPGW type guard cables).
Reviewer/Approver of the detailed engineering of the NIF ELECTRICAL SUBSTATION Project.
115/13.8 kV: Command House, CDP’s House, Data Acquisition House, Surveillance House, Structural calculations for
Structural calculations for incoming gantries, foundations for equipment,
foundations for gantry, roadway, rain drainage and oily water drainage. For the
Furrial Lift Gas Injection Plant Project: Reviewer/Approver of the structure design.
Metal Piperack, structure for Lube Oil, Coolant and Refueling Tanks,
Instrument Air Cabin structure. Support to PDVSA Morichal’s Management in the revision of the engineering
engineering review performed by CB&I of the Tanks 0002-TK-1002A/B
The course modality is completely virtual. You will be able to access the sessions from your home, office, work, etc. The approach is theoretical-practical.
this course is available pre-recorded online and can be accessed at any time with unlimited access.
ElectroEnergy will award a Certificate to those who pass the course.
