- The document describes lessons on three-phase transformers, including connecting transformer windings in wye and delta configurations and verifying proper phase relationships.
- Key concepts covered include voltage and current relationships in delta-wye and wye-delta transformer configurations, and using an open-delta configuration to supply a three-phase load with two transformers while limiting power capacity.
- Exercises are described to connect and test three-phase transformers, demonstrate voltage and current characteristics, and operate transformers in an open-delta configuration.
Ekeeda Provides Online Electronics Engineering Degree Subjects Courses, Video Lectures for All Engineering Universities. Video Tutorials Covers Subjects of Mechanical Engineering Degree. Visit us: https://ekeeda.com/streamdetails/stream/Electronics-Engineering
Engineering review on AC circuit steady state analysis.
Presentation lecture for energy engineering class.
Course: MS in Renewable Energy Engineering, Oregon institute of technology
Ekeeda Provides Online Electronics Engineering Degree Subjects Courses, Video Lectures for All Engineering Universities. Video Tutorials Covers Subjects of Mechanical Engineering Degree. Visit us: https://ekeeda.com/streamdetails/stream/Electronics-Engineering
Engineering review on AC circuit steady state analysis.
Presentation lecture for energy engineering class.
Course: MS in Renewable Energy Engineering, Oregon institute of technology
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Quality defects in TMT Bars, Possible causes and Potential Solutions.PrashantGoswami42
Maintaining high-quality standards in the production of TMT bars is crucial for ensuring structural integrity in construction. Addressing common defects through careful monitoring, standardized processes, and advanced technology can significantly improve the quality of TMT bars. Continuous training and adherence to quality control measures will also play a pivotal role in minimizing these defects.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
TECHNICAL TRAINING MANUAL GENERAL FAMILIARIZATION COURSEDuvanRamosGarzon1
AIRCRAFT GENERAL
The Single Aisle is the most advanced family aircraft in service today, with fly-by-wire flight controls.
The A318, A319, A320 and A321 are twin-engine subsonic medium range aircraft.
The family offers a choice of engines
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
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About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Democratizing Fuzzing at Scale by Abhishek Aryaabh.arya
Presented at NUS: Fuzzing and Software Security Summer School 2024
This keynote talks about the democratization of fuzzing at scale, highlighting the collaboration between open source communities, academia, and industry to advance the field of fuzzing. It delves into the history of fuzzing, the development of scalable fuzzing platforms, and the empowerment of community-driven research. The talk will further discuss recent advancements leveraging AI/ML and offer insights into the future evolution of the fuzzing landscape.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
2. UNCLASSIFIED
UNCLASSIFIED
ACTION: Apply the theory of power circuits and transformers.
CONDITIONS: Given a LabVolt EMS system, LabVolt courseware,
Fluke electrical metering devices, and applicable references.
STANDARD: Effectively use transformers and power circuits theory to
solve complex engineering problems in an austere environment.
3. UNCLASSIFIED
UNCLASSIFIED
• Safety Requirements: None
• Risk Assessment Level: Low
• Environmental Considerations: None
• Evaluation: Students will be evaluated on this
block of instruction during the Electrical Systems
Design Examination 1. Students must receive a
score of 80 percent or above to receive a GO.
5. UNCLASSIFIED
UNCLASSIFIED
ACTION: Understand Three-Phase Transformers
CONDITIONS: Given a LabVolt EMS system, LabVolt courseware,
Fluke electrical metering devices, and applicable references.
STANDARD: Understand the operating characteristics of three- phase
transformers. You will be able to connect transformer windings in wye
and delta configurations, and verify that windings are connected with
the proper phase relationships. Voltage and current measurements will
be used to study transformer operation and working characteristics.
6. UNCLASSIFIED
UNCLASSIFIED
• When you have completed this unit, you will be familiar with
operating characteristics of three-phase transformers.
• You will be able to connect transformer windings in wye
and delta configurations, and verify that windings are
connected with the proper phase relationships.
• Voltage and current measurements will be used to study
transformer operation and working characteristics.
S3D03-6
Lesson Objectives
7. UNCLASSIFIED
UNCLASSIFIED
• Many of the concepts used in this unit were seen in Unit 6,
and it may be useful to review its contents to ensure better
understanding of the material presented here.
• The main features of three-phase circuits that are important
to recall are that there are two types of connections, wye
and delta.
• Furthermore, in wye-connected three-phase circuits, the
line voltages are greater than the phase voltages by the
factor √3 and the line and phase currents are equal.
• On the other hand, in delta-connected three-phase circuits,
the line currents are greater than the phase currents by the
factor √3 and the line and phase voltages are equal.
8. UNCLASSIFIED
UNCLASSIFIED
• Many of the concepts used in this unit were seen in Unit 6,
and it may be useful to review its contents to ensure better
understanding of the material presented here.
• The main features of three-phase circuits that are important
to recall are that there are two types of connections, wye
and delta.
• Furthermore, in wye-connected three-phase circuits, the
line voltages are greater than the phase voltages by the
factor √3 and the line and phase currents are equal.
• On the other hand, in delta-connected three-phase circuits,
the line currents are greater than the phase currents by the
factor √3 and the line and phase voltages are equal.
9. UNCLASSIFIED
UNCLASSIFIED
• A three-phase transformer can be a single unit or three
single-phase units, and the primary and secondary
windings can be connected in either wye or delta to give
four types of connections, delta-delta, wye-wye, delta-
wye, and wye-delta.
• Usually, three-phase power systems have a line voltage of
208 V (380 V or 415 V in some countries), and standard
120-V voltage (220 V or 240 V in some countries) can be
obtained between a line wire and the neutral wire as shown
in Figure 9-1.
10. UNCLASSIFIED
UNCLASSIFIED
• The wye-connected secondary provides three-phase
120/208-V power using 4 wires as shown, and the primary
side of the transformer may be connected in delta like in
the figure, or in wye.
• One big advantage of using a delta configuration for the
primary is that only three wires are needed to distribute the
three phases.
11. UNCLASSIFIED
UNCLASSIFIED
• An advantage of a delta-delta connection is that two single-
phase transformers (instead of three) can be operated in
what is known as the open-delta or "V" configuration if one
of the three transformers becomes damaged or is removed
from service.
• The open-delta transformer bank still delivers phase
voltages and currents in the correct relationship, but the
capacity of the bank is reduced to 57.7% (1⁄√3) of the total
nominal capacity available with three transformers in
service.
12. UNCLASSIFIED
UNCLASSIFIED
• In the delta-delta and wye-wye configurations, the line
voltage at the secondary is equal to the line voltage at the
primary times the inverse of the turns ratio.
• In the delta-wye configuration, the line voltage at the
secondary is equal to the line voltage at the primary times
the inverse of the turn ratio times √3.
• In the wye-delta configuration, the line voltage at the
secondary is equal to the line voltage at the primary times
the inverse of the turn ratio times 1⁄√3.
13. UNCLASSIFIED
UNCLASSIFIED
• Regardless of how the windings in a three-phase
transformer are connected, precautions must be taken to
ensure that the secondaries are connected with the proper
phase relationships.
• For a wye configuration, this means that the voltage
measured across any two secondary windings (line
voltage) must be √3 times greater than the voltage across
either winding (phase voltage).
• If not, the connections must be reversed before continuing.
14. UNCLASSIFIED
UNCLASSIFIED
• With a delta configuration, the voltage measured between
the ends of two series-connected secondary windings must
equal the voltage across either winding.
• If not, the connections must be reversed.
• When one end of the third winding is connected, the
voltage measured across all three series-connected
windings must equal zero before connecting them together
to close the delta.
• It is extremely important to verify that the voltage within the
delta equals zero before the delta is closed.
• If not, the resulting current will be very high and damage
the windings.
15. UNCLASSIFIED
UNCLASSIFIED
• When you have completed this exercise, you will be able to connect
three-phase transformers in delta-delta and wye-wye configurations.
• You will measure winding voltages to verify that the secondary
windings are connected with the proper phase relationships, and you
will verify that the voltage within a delta equals zero before the delta
is closed.
LSA 1: Three-Phase Transformer Connections
Time: 4 hrs
PE: 50 mins
Check on Learning: Blackboard Quiz 9-1
16. UNCLASSIFIED
UNCLASSIFIED
• As mentioned earlier, four common ways of connecting
transformer windings to form a three-phase transformer are:
• delta-delta
• wye-wye
• delta-wye
• Wye-delta
• As seen in Unit 6, in order to set up a wye connection, first
connect the three components (windings) together at a common
point for interconnection with the neutral wire, then connect the
other end of each component in turn to the three line wires.
• To set up a delta connection, connect the first component in
series with the second, the second in series with the third, and
the third in series with the first to close the delta loop.
• The three line wires are then separately connected to each of the
junction nodes in the delta loop.
17. UNCLASSIFIED
UNCLASSIFIED
• As mentioned earlier, four common ways of connecting
transformer windings to form a three-phase transformer are:
• delta-delta
• wye-wye
• delta-wye
• Wye-delta
• As seen in Unit 6, in order to set up a wye connection, first
connect the three components (windings) together at a common
point for interconnection with the neutral wire, then connect the
other end of each component in turn to the three line wires.
• To set up a delta connection, connect the first component in
series with the second, the second in series with the third, and
the third in series with the first to close the delta loop.
• The three line wires are then separately connected to each of the
junction nodes in the delta loop.
18. UNCLASSIFIED
UNCLASSIFIED
• As mentioned earlier, four common ways of connecting
transformer windings to form a three-phase transformer are:
• delta-delta
• wye-wye
• delta-wye
• Wye-delta
• As seen in Unit 6, in order to set up a wye connection, first
connect the three components (windings) together at a common
point for interconnection with the neutral wire, then connect the
other end of each component in turn to the three line wires.
• To set up a delta connection, connect the first component in
series with the second, the second in series with the third, and
the third in series with the first to close the delta loop.
• The three line wires are then separately connected to each of the
junction nodes in the delta loop.
19. UNCLASSIFIED
UNCLASSIFIED
• Before a three-phase transformer
is put into service, the phase
relationships must be verified.
• For a wye configuration, the line
voltages at the secondary
windings must all be √3 times
greater than the corresponding
phase voltages.
• If not, winding connections must
be reversed.
20. UNCLASSIFIED
UNCLASSIFIED
• To verify that phase relationships are correct for a wye
configuration, the voltage between two windings (EAB) is measured
as shown in Figure 9-4a to confirm that it is √3 times greater than
the line-to-neutral voltage across either winding (for example EAN).
• The voltages between the third winding and the others (EBCand
ECA) are then measured to confirm that they are also √3 times
greater than the phase voltage (EAN), as shown in Figure 9-4b.
21. UNCLASSIFIED
UNCLASSIFIED
• For a delta configuration, the line voltages at the secondary
windings must all be equal.
• If not, winding connections must be reversed.
• To verify that phase relationships are correct for a delta
configuration, the voltage across two series-connected
windings (ECA) is measured as shown in Figure 9-5a to
confirm that it is equal to the voltage across either winding
(EAB and EBC).
22. UNCLASSIFIED
UNCLASSIFIED
• The third winding is then connected in series, and the voltage
across the series combination of the three windings is measured to
confirm that it is zero before the delta is closed, as shown in Figure
9-5b.
• This is extremely important for a delta configuration, because a
very high short-circuit current will flow if the voltage within the delta
is not equal to zero when it is closed.
24. UNCLASSIFIED
UNCLASSIFIED
• In this exercise, you connected transformer windings in
three-phase delta-delta and wye-wye configurations, and
measured winding voltages to ensure that secondary
windings were connected with the proper phase
relationships.
• You confirmed that the voltage within a delta was zero
before closing the delta, and that the delta-delta and wye-
wye configurations produced no phase shift between the
incoming primary voltages and the outgoing secondary
voltages.
26. UNCLASSIFIED
UNCLASSIFIED
• The 30° phase shift between the primary and secondary does not create any
problems for isolated groups of loads connected to the outgoing lines from the
secondary.
• However, if the outgoing lines from the secondary of a three-phase transformer
have to be connected in parallel with another source, the phase shift might
make such a parallel connection impossible, even if the line voltages are the
same.
• Recall that in order for three-phase circuits and sources to be connected in
parallel, line voltages must be equal, have the same phase sequence, and be
in phase when the parallel connection is made.
27. UNCLASSIFIED
UNCLASSIFIED
• Figure 9-8 shows a three-phase transformer, with a turns ratio equal to 1:1,
connected in the delta-wye configuration and feeding a three-phase load.
• The voltage across each primary winding EPRI equals the incoming line voltage,
but the outgoing line voltage ESEC is √3 times that voltage because the voltage
across any two secondary windings is √3 times greater than the voltage across
a single secondary winding.
• Note that if the three-phase transformer had a turns ratio of 1:10, the line
voltage at the secondary would be 10 x √3 times greater the line voltage at the
primary, because the inverse of the turns ratio is multiplied by the √3 factor.
• The line current in the secondary is the same as the phase current, but the line
current in the primary is √3 times greater than the corresponding phase current.
29. UNCLASSIFIED
UNCLASSIFIED
• In this exercise, you connected a 1:1 three-phase
transformer in wye-delta and delta-wye configurations, and
saw that the line voltage between primary and secondary
either increased or decreased by a √3 factor.
• You also confirmed that the outgoing line voltages at the
secondary were shifted 30° with respect to the incoming
line voltages at the primary.
31. UNCLASSIFIED
UNCLASSIFIED
• When you have completed this exercise, you will be able to connect two
transformers in an open-delta configuration to supply a balanced three-phase
load.
• You will also be able to demonstrate that the maximum power in the open-delta
configuration is 57.7% (1⁄√3) the capacity of a normal delta-delta configuration.
32. UNCLASSIFIED
UNCLASSIFIED
• The open-delta connection allows three-phase balanced loads to be supplied
using only two transformers.
• This configuration is useful if the amount of load power is not excessive, or
when one of the three transformers must be taken out of service because of
damage or some other reason.
• The most important thing to note is that the power capacity in the open-delta
configuration is 57.7% of the total capacity of the normal delta-delta
configuration, or 86.6% of the capacity of the two remaining transformers.
34. UNCLASSIFIED
UNCLASSIFIED
• In a standard delta configuration, the line current is √3 times greater
than the current flowing in the phase winding.
• When one of the transformers is absent, full line current flows through
the phase windings, since line and phase currents are the same in an
open-delta configuration.
• The large increase in current will cause the phase windings to overheat
and will damage the transformer unless load power is reduced.
• The line current must therefore be reduced by √3, meaning that the
power capacity in the open-delta configuration is limited to 57.7% of the
power capacity normal delta-delta configuration.
35. UNCLASSIFIED
UNCLASSIFIED
• The following example illustrates the calculation of maximum power.
• When three 50-kVA transformers are connected in delta-delta configuration, the
total capacity of the bank is their sum, or 150 kVA.
• For two transformers in an open-delta configuration, the capacity is 150
kVA⁄√3, or 86.6 kVA, which is the same as 86.6% of the total capacity of two
transformers (0.866 x 100 kVA = 86.6 kVA).
37. UNCLASSIFIED
UNCLASSIFIED
• In this exercise, you set up a three-phase transformer in the
open-delta configuration and observed that it supplies a
three-phase load with voltages and currents in the proper
phase relationships.
• You also demonstrated that load power must be reduced by
57.7% (1⁄√3) to avoid exceeding the current rating of the
phase windings.