UEE41620 Certificate IV in Renewable Energy
www.iqytechnicalcollege.com/UEE41620CIVRenewableEnergy.htm
This
online learning site is designed by
U
Kyaw Naing
BE(EP),MSc(EE),MSc(Sc
Ed) Curtin, CIV TAE40116 , Graduate Diploma in Adult
and
Vocational Education(TAFE-NSW),EdD(STCTU),Dip VET (TAE50111),Dip Training
Systems Design (TAE50211)
CIII
Electrical Wiring (TAFE-NSW), Cert of Proficiency(Electrical Fitter)NSW VTT,
Craft Cert (Electronic Computer Systems)NSWVTT,
Cert of
Proficiency (Engineering), NSWVTT,UEE11 Statement (TAFE-NSW)
Dip
Electronics (ICS-USA)
Marine
Engineer Cadet Training Certificate (Mechanical)
MIEAust (907788),
Professional
Engineer (NSW) 001338
Registered
Professional Engineer of Queensland (07661)
NSW
Electrician Licence-Qualified Supervisor Certificate (33631S)
(Former
Teacher of Electrical Engineering & Electrotechnology-TAFE-NSW)
UK
Qualifications
This qualification provides competencies to select, install, commission, fault find and maintain multiple renewable energy (RE) sources and equipment for control of energy use. No licensing, legislative or certification requirements apply to this qualification at the time of publication. |
There are no entry requirements for this qualification. |
A total of 1280 weighting points comprising: 740 core weighting points listed below; plus 540 general elective weighting points from the general elective units listed below. Choose a total of 540 weighting points elective units from the list below, of which between 0 and 160 weighting points can be taken from Group A; between 0 and 320 weighting points can be taken from Group B; and between 220 and 380 weighting points can be taken from Group C. Up to 220 weighting points of
the general elective units Group A, may be selected, with appropriate
contextualisation, from any relevant nationally endorsed Training Package . |
|||||||||||||||||||||||||||||||||
Core units |
Weighting Points |
||||||||||||||||||||||||||||||||
UEECD0007 |
Apply work health and safety regulations, codes and practices in the workplace http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E101A |
20 |
|||||||||||||||||||||||||||||||
UEECD0010 |
Compile and produce an energy sector detailed report
|
60 |
|||||||||||||||||||||||||||||||
UEECD0016 |
Document and apply measures to control WHS risks associated with electrotechnology work* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E137A |
20 |
|||||||||||||||||||||||||||||||
UEECD0019 |
Fabricate, assemble and dismantle utilities industry components* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E102A |
40 |
|||||||||||||||||||||||||||||||
UEECD0020 |
Fix and secure electrotechnology equipment* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E105A |
20 |
|||||||||||||||||||||||||||||||
UEECD0024 |
Implement and monitor energy sector WHS policies and procedures
|
20 |
|||||||||||||||||||||||||||||||
UEECD0025 |
Lay wiring/cabling and terminate accessories for extra-low voltage (ELV) circuits* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#G106A |
40 |
|||||||||||||||||||||||||||||||
UEECD0027 |
Participate in development and follow a personal competency development plan
http://www.mongroupsydney1.com/E083.pdf E083 Electro-technology Competency Development
(Electronics) |
20 |
|||||||||||||||||||||||||||||||
UEECD0043 |
Solve problems in direct current circuits* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E104A |
80 |
|||||||||||||||||||||||||||||||
UEECD0045 |
Solve problems in multiple path extra-low voltage (ELV) a.c. circuits* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#G102A |
40 |
|||||||||||||||||||||||||||||||
UEECD0051 |
Use drawings, diagrams, schedules, standards, codes and specifications* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E107A |
40 |
|||||||||||||||||||||||||||||||
UEEEL0019 |
Solve problems in direct current (d.c.) machines* |
30 |
|||||||||||||||||||||||||||||||
UEEEL0021 |
Solve problems in magnetic and electromagnetic devices* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#G101A |
30 |
|||||||||||||||||||||||||||||||
UEERE0015 |
Implement and monitor energy sector environmental and sustainable policies and procedures http://www.iqytechnicalcollege.com/electricaltrade2022.htm#K142A |
20 |
|||||||||||||||||||||||||||||||
UEERE0022 |
Solve basic problems in photovoltaic energy apparatus and systems* https://www.iqytechnicalcollege.com/UEE43322RE.htm#a2 |
20 |
|||||||||||||||||||||||||||||||
UEERE0025 |
Carry out basic repairs to renewable energy (RE) apparatus* RE
technologies, including:
major non-technical issues encompassing:
impact of economic, social, environmental and political issues on the use of
RE technologies
how each of the non-technical issues impact on the application of a selected
RE Assessment
Requirements for UEERE0025 Carry out basic repairs to renewable energy (RE)
apparatusDate this document was generated: 13 December
2022 Approved
Page 3 of 7 ©
Commonwealth of Australia, 2022 Australian Industry Standards technology
energy services and demand encompassing:
definition of the terms: energy, power, energy efficiency, end-use energy,
primary energy
and embodied energy
calculation relating to energy, power and time with the appropriate number
and time with
the appropriate number of significant figures
units and symbols for energy, power, time and temperature using standard International
System of Units (SI) and prefixes
conversion of energy and power quantities from one unit to another using
conversion tables
the two laws that apply to any energy conversion process
efficiency of a simple energy conversion process
energy services required by a domestic dwelling
power and energy consumption of individual appliances and systems using appropriate
meters or other methods
calculation of the end use and primary energy required for these energy
services
selection of the most appropriate energy source for each of these services
justification in terms of environmental, economic, social and political
constraints
selection of appropriate energy efficient appliances and technologies
solar resource encompassing:
definition of the terms: irradiation, latitude, solar constant, direct and
diffuse radiation, azimuth
and altitude angles, irradiance, solar window, tilt angle, solstice and
equinox
units and symbols for irradiation and irradiance and the conversion of one
unit to another
using conversion tables
measurement of solar irradiance with a solarimeter
solar radiation data tables and contour maps
position of the sun for a given date, time and latitude using a sun path
diagram
times when an obstacle will shade a given collector
how radiation varies throughout the year on the surface of a collector which
is either fixed,
single-axis tracking or double-axis tracking
appropriate tilt angles for fixed and seasonally-adjustable collectors at a
given latitude and
given application
calculation of the effect of single-axis tracking and double-axis tracking on
collected radiation
using radiation data tables
solar thermal systems encompassing:
definition of terms: conduction, convection, radiation, collector heat loss
co-efficient, conductivity,
specific heat and solar fraction
components for a solar thermal system, including collector, storage,
reticulation and control
solar collector types suitable for low, medium and high temperature
applications
different types of domestic solar hot water (SHW) systems
how the components of thermosiphon and pumped storage systems operate Assessment
Requirements for UEERE0025 Carry out basic repairs to renewable energy (RE)
apparatusDate this document was generated: 13 December
2022 Approved
Page 4 of 7 ©
Commonwealth of Australia, 2022 Australian Industry Standards
heat loss mechanisms in collectors
stratification in storage tanks
backup energy systems
control and protection strategies
solar fraction of a domestic SHW system with the use of table or nomograms
energy efficient building design encompassing:
definition of terms: thermal comfort, passive system, active system, aspect
of the site, orientation
of the building and thermal mass
the climate factors which affect building design
relationship between thermal comfort and climate
relationship between the seasonal variation of the sun’s path and the heat
gain of the building
elements (roof, walls, windows and floor)
effect of the thermal conductivity of building materials on heat flows to and
from the building
use of thermal mass in reducing temperature variations within the building
use of ventilation
thermal performance of a dwelling using both indoor and outdoor hourly
temperature measurements
over the period of at least one day
effect of insulation, glazing, orientation, shading devices, thermal mass and
ventilation on the
thermal performance of a building
an active solar system which could be used in a dwelling to complement
passive design
features in extreme climates
aspects of an existing dwelling that contribute to or detract from thermal
performance
photovoltaic (PV) arrays encompassing:
definition of terms: PV cell, module, series, parallel, array, maximum power
point (MPP),
nominal operating cell temperature (NOCT), short circuit current (ISC), open circuit
voltage (VOC), I-V curve, current at maximum power point (IMP) and voltage at
maximum power point (VMP)
calculations relating to voltage, current and power with the appropriate
number of significant
figures and using standard SI units and prefixes
types of commercially available PV modules, their efficiency and typical
applications
I-V curve for a typical PV module and label the approximate position of MPP
and values
of ISC, VOC, IMP and VMP
effect of irradiance and temperature on ISC, VOC, IMP and VMP
function of blocking and bypass diodes
current and voltage of a single module to produce the I-V characteristic
curve
major specification criteria for a PV module
size and configuration of a PV array for a given load and system voltage
using tables or
nomograms
wind energy resources encompassing:
definition of terms: kinetic energy, specific wind power, vertical wind speed
profile, surface
roughness, temperature inversion layer, cut in (vC), rated (vR) and furling Assessment
Requirements for UEERE0025 Carry out basic repairs to renewable energy (RE)
apparatusDate this document was generated: 13 December
2022 Approved
Page 5 of 7 ©
Commonwealth of Australia, 2022 Australian Industry Standards (vF)
wind
speeds, rated power (PR), power co-efficient (cP), output co-efficient (cO and
tip speed ratio
units and symbols for wind speed, specific wind power and air density
large scale wind patterns over the Australian continent, their causes and the
effect of local
terrain on wind speed, direction and turbulence
specific wind power for given wind speeds
wind speed at different heights above ground level
the mean wind speed based on wind speed frequency distribution data in the
form of a histogram
suitable minimum tower height for a wind energy conversion system (WECS)
sited downwind
from an obstacle
isovent maps
types of wind-measuring instruments and the minimum requirements for
assessing wind
energy at a given site
measurement of wind speed and direction
characteristics of horizontal axis and vertical axis, upwind and downwind,
lift and drag
propelled wind turbines
power vs. wind speed curve for a typical WECS showing vC, vR, vF, and PR
major specification criteria for a WECS
sizing a WECS for a given load, efficiency and annual mean wind speed using
tables or a
nomogram
micro-hydro system basis encompassing:
definition of terms: flow rate, gross or static head, potential energy, net
or dynamic head,
hydraulic efficiency, micro-hydro system efficiency, equivalent pipe length, reaction
turbine and impulse turbine
units and symbols for flow rate, head and gravitational constant
methods each assessing flow rate and head
measurement of stream flow rate and head
assessment from contour maps
different micro-hydro systems in terms of their physical and operating
characteristics
major specification criteria for a micro-hydro system for electricity
generation
suitable type and size of micro-hydro-system for a given load, efficiency,
available flow
rate and net head using tables or a nomogram
energy storage encompassing:
methods of energy storage
energy density of the energy storage methods above by mass and volume
definition of the following terms in relation to batteries: nominal voltage,
cell, primary and
secondary cells, battery, charge and discharge rate, amp hour capacity, watt
hour capacity,
state of charge (SOC), depth of discharge (DOD), specific gravity (SG), watt hour
and amp hour efficiency, and cycle life
major features of common types of batteries suitable for stand-alone power
systems Assessment
Requirements for UEERE0025 Carry out basic repairs to renewable energy (RE)
apparatusDate this document was generated: 13 December
2022 Approved
Page 6 of 7 ©
Commonwealth of Australia, 2022 Australian Industry Standards
state of charge of a lead-acid battery through measurement of specific
gravity or battery
voltage using safe working practices
stand-alone power system basis encompassing:
direct current (d.c.) sub-system efficiency
block diagram of a typical stand-alone power system
function of each stand-alone power system component
typical efficiencies of each component
major characteristics of different types of commercially available
regulators, inverters and
battery chargers
biomass encompassing:
definition of terms: biogas, producer gas, biofuels, feedstock, gross and net
calorific values
biofuels and their specific energy contents
method of production of one of these five biofuels, including source of raw material/feedstock,
conversion process and yield
applications for each of the biofuels
assessment of the biomass resource required to meet a particular energy
service, e.g. cooking,
hot water, space heat, transport, process heat and electricity
social, political and economic impact of large-scale use of selected biomass
resources
relevant manufacturer specifications
relevant job safety assessments or risk mitigation processes
relevant WHS/OHS legislated requirements
relevant workplace documentation
relevant workplace policies and procedures. http://www.iqytechnicalcollege.com/profdipelectengg.htm#z50 RE005 Renewable Energy Resources Analysis RE005-RE
Resources Analysis (6).pdf (5.42MB)
Day 9 Part 1 Renewable Energy Resources
Analysis 1 (Myanmar+English) Topics-Hydro
Power Plants Renewable Energy Resources
Analysis 2 (Myanmar+English) Topics-Water Turbines Renewable Energy Resources
Analysis 3 (Myanmar+English) Topics-Bio-Energy, Thermo Chemical Renewable Energy Resources
Analysis 4 (Myanmar+English) Topics-Bio-Chemical
Processing, Geo-thermal Energy, Tidal Energy Renewable Energy Resources
Analysis 5 (Myanmar+English) Topics-Tidal
Wave Generators, Connection to Electricity Grid RE005- Renewable Energy Resource Analysis
RE005
Renewable Energy Resources Analysis RE004-4 Hydro
power Slide 2,3,5,6 Hydro
plants 7,8 Turbine
blades 11,14,15,18,22 Bio
energy 29,31,32,33,34, Bio fuel 36,37,41 Oil
extraction 44,45 Thermo
chemical processing 46 RE005-5 Bio
chemical processing 7,9,10,11,
Ethanol 13,14 Geothermal 24,28,32,36,40,42,46,50,51 RE005-6 Tidal
energy Physics 1,3,5,6,7,8,9,11,14,17,20,21,23,24,25,27,28,29,30,31,34,36,37,43,44,47,50,52,53 RE005-7 Hydrogen
Fuel 1,2,3 Fuel
cell 13,14 LESSON NOTES 8 RE005- Renewable Energy Resource Analysis www.iqytechnicalcollege.com/RE005.zip ASSIGNMENT Page 31
to 46 All questions of www.highlightcomputer.com/BEGeneralREAssignment.pdf RE006 Wind Energy Conversion System 7.RE006 Day 8 Part 1B-RE006- Wind Energy Conversion Systems.zip
(4.47MB) Wind Energy Conversion System 1(Myanmar+English) Topics-Energy&
Power in Wind, World Wind Energy Wind Energy Conversion System 2 (Myanmar+English) Topics-Wind
Turbine, Aero-dynamic forces, Electricity Generated by
Wind Turbine RE006
Wind Energy System Page
1 Wind of the world Page
2 Energy & Power in the wind Page 3,4 Wind machines Page 6,7,8,9 Page
14 Aero dynamic force Page 19,20 Aerofoil Page
23 Relative wind velocity Page
24 Wind turbine power 26,27,28 Page
32 Wind energy calculation Page 36 LESSON NOTES RE006- Wind Energy Conversion Systems www.iqytechnicalcollege.com/RE006.zip RE010-Engineering
Materials Day 10
Part 1 RE010
ENMAT101A Engg Mat Processes1 RE010
ENMAT101A Engg Mat Processes1A RE010
ENMAT101A Engg Mat Processes2 RE010
ENMAT101A Engg Mat Processes3 RE010
ENMAT101A Engg Mat Processes RE010-Engineering Materials www.highlightcomputer.com/Day
10 Part 1-RE010-Engineering Materials.zip Day
10 Part 1 RE010 Engineering Materials 1
Properties of materials 2
metals 3
polymers 4
thermoplastics 5
ceramics 6
chemical bonding 7
ionic bond 8
metallic bond 9
covalent bond 10 production 13 strength 15
electrical properties 16
thermal properties 19
durability 20
corrosion resistance 22
force extension diagram, 23,24
25 carbon steel 26 brinell hardness test 34 fatgue testing 35
safety factor 36
casting 47
carbon state change diagram, 50 64
nickel copper equilibrium diagram 67 85,
86 smelting 86
steel manufacturing 87
electric arc furnacing 119,120
heat treatment 122
alloying 140 induction hardening 159 176
polyethylene 177
polyvinyl chloride 195
hardness test 209 ceramic 201 glass 231 mortar 240
matrix materials 247
welding 266
service requirement 267 |
80 |
|||||||||||||||||||||||||||||||
UEERE0034 |
Diagnose and rectify faults in renewable energy (RE) control systems* Knowledge
Evidence Evidence
required to demonstrate competence in this unit must be relevant to and
satisfy all of the
requirements of the elements, performance criteria and range of conditions
and include knowledge
of:
renewable energy (RE) system electronics, including:
fault-finding technsiques encompassing:
factors to consider in clarifying the nature of a fault: •
initial fault report •
confirmation of symptoms of the fault •
comparison of symptoms with normal operation Assessment
Requirements for UEERE0034 Diagnose and rectify faults in renewable energy
(RE) control systems Date this document was generated:
24 October 2022 •
effect to cause reasoning — assumptions of possible causes
methods for testing assumptions: •
visual inspection • sectional
testing •
split-half tests •
component isolation
dealing with intermittent faults
semiconductor components encompassing:
symbols for common semiconductor components, including rectifier diodes, light-emitting
diodes (LEDs), zener diodes, bipolar transistors, darlington pairs, MOSFETs,
IGBTs, SCRs and triacs
basic function of these devices above
major rating parameters of devices above
applications for each device
I-V curve characteristics of diodes and the current gain characteristic of
bipolar transistors
linear regulated direct current (d.c.) power supplies encompassing:
label circuit diagrams for half wave and full wave, single phase and three
phase rectifiers
voltage and current waveforms for these rectifier circuits with and without
capacitor filtering
peak output voltages from single phase and three phase rectifier circuits
block diagram showing the structure of a regulated d.c. power supply
main features of linear integrated circuit and voltage regulator integrated
circuits
each of the major components and their physical location in a regulated power
supply
switching power control circuits encompassing:
power dissipation of a transistor when operated as a switch
how pulse width modulation (PWM) can provide a variable output voltage from a switch
mode regulator
advantages and disadvantages of switch mode power circuits compared with
linear power
circuits
block diagram of a basic photovoltaic (PV) switching voltage regulator for
battery charging
applications of switch mode circuits found in RE systems
how power control in alternating current (a.c.) circuits is achieved using
SCRs and triacs
methods used to reduce radio frequency interference (RFI) in d.c. and a.c.
circuits utilising
high-speed switching
digital electronic circuits encompassing:
characteristic features that distinguish analogue and digital devices and
circuits
how numbers or text information can be represented using binary numbers and
how Assessment
Requirements for UEERE0034 Diagnose and rectify faults in renewable energy
(RE) control systems Date this document was generated:
24 October 2022 these
are represented in digital circuits
operation of voltage comparators, analogue to digital (A-D) converters, and
digital to analogue
(D-A) converters, and examples of each one’s use in a RE application
basic function of microcontrollers, volatile and non-volatile memory devices
operation of a solar hot water (SHW) system pump differential controller as
an example
of the use of logic in digital circuits
inverters encompassing:
basic function of inverters and d.c converters and their use in RE systems
the operation of an inverter bridge and half-bridge
output voltage waveforms for square wave, modified square wave and
synthesised sine
wave inverters showing typical voltages and timing
the function of PWM techniques in modified square wave and synthesised sine
wave inverters
block diagrams showing the structure of common forms of d.c converters and inverters
used in RE applications
maintenance encompassing:
safety procedures for work on electronic systems, circuits and apparatus
hazards that may be encountered when performing tests on inverters, battery
chargers or
other equipment containing low voltage (LV) circuits
functionality of electronic equipment through appropriate client questioning
and application
of systematic tests and observation
various types of common faults and their causes in RE electronic equipment
typical test equipment used to repair electronic and electrical equipment
safe and correct use of tools and test equipment to locate electronic
equipment faults under
the direction of an electronics technician
replacement of circuit boards, observing appropriate handling precautions for
static sensitive
devices
replacement of socketed integrated circuits such as EPROMs or microprocessors
using appropriate
tools and methods
relevant manufacturer specifications
relevant safe work method statements (SWMS)/job safety assessments or risk
mitigation processes
relevant WHS/OHS legislated requirements
relevant workplace documentation
relevant workplace policies and procedures
RE control system
RE005 Renewable Energy Resources Analysis RE005-RE
Resources Analysis (6).pdf (5.42MB)
Day 9 Part 1 Renewable Energy Resources
Analysis 1 (Myanmar+English) Topics-Hydro
Power Plants Renewable Energy Resources
Analysis 2 (Myanmar+English) Topics-Water Turbines Renewable Energy Resources
Analysis 3 (Myanmar+English) Topics-Bio-Energy, Thermo Chemical Renewable Energy Resources
Analysis 4 (Myanmar+English) Topics-Bio-Chemical
Processing, Geo-thermal Energy, Tidal Energy Renewable Energy Resources
Analysis 5 (Myanmar+English) Topics-Tidal
Wave Generators, Connection to Electricity Grid Day
9 Part 1 RE005- Renewable Energy Resource Analysis
Day
9 Part 1 RE005
Renewable Energy Resources Analysis RE004-4 Hydro
power Slide 2,3,5,6 Hydro
plants 7,8 Turbine
blades 11,14,15,18,22 Bio
energy 29,31,32,33,34, Bio fuel 36,37,41 Oil
extraction 44,45 Thermo
chemical processing 46 RE005-5 Bio
chemical processing 7,9,10,11,
Ethanol 13,14 Geothermal 24,28,32,36,40,42,46,50,51 RE005-6 Tidal
energy Physics 1,3,5,6,7,8,9,11,14,17,20,21,23,24,25,27,28,29,30,31,34,36,37,43,44,47,50,52,53 RE005-7 Hydrogen
Fuel 1,2,3 Fuel
cell 13,14 LESSON NOTES 8 RE005- Renewable Energy Resource Analysis www.iqytechnicalcollege.com/RE005.zip ASSIGNMENT Page 31
to 46 All questions of www.highlightcomputer.com/BEGeneralREAssignment.pdf RE006 Wind
Energy Conversion System 7.RE006 Day 8 Part 1B-RE006- Wind Energy Conversion Systems.zip
(4.47MB) Wind Energy Conversion System 1(Myanmar+English) Topics-Energy&
Power in Wind, World Wind Energy Wind Energy Conversion System 2 (Myanmar+English) Topics-Wind
Turbine, Aero-dynamic forces, Electricity Generated by
Wind Turbine Day
8 Part 1B RE006
Wind Energy System Page
1 Wind of the world Page
2 Energy & Power in the wind Page 3,4 Wind machines Page 6,7,8,9 Page
14 Aero dynamic force Page 19,20 Aerofoil Page
23 Relative wind velocity Page
24 Wind turbine power 26,27,28 Page
32 Wind energy calculation Page 36 LESSON NOTES RE006- Wind Energy Conversion Systems www.iqytechnicalcollege.com/RE006.zip RE010-Engineering
Materials Day 10
Part 1 RE010
ENMAT101A Engg Mat Processes1 RE010
ENMAT101A Engg Mat Processes1A RE010
ENMAT101A Engg Mat Processes2 RE010
ENMAT101A Engg Mat Processes3 RE010
ENMAT101A Engg Mat Processes Day
10 Part 1 RE010-Engineering Materials www.highlightcomputer.com/Day
10 Part 1-RE010-Engineering Materials.zip Day
10 Part 1 RE010 Engineering Materials 1
Properties of materials 2
metals 3
polymers 4
thermoplastics 5
ceramics 6
chemical bonding 7
ionic bond 8
metallic bond 9
covalent bond 10 production 13 strength 15
electrical properties 16
thermal properties 19
durability 20
corrosion resistance 22
force extension diagram, 23,24
25 carbon steel 26 brinell hardness test 34 fatgue testing 35
safety factor 36
casting 47
carbon state change diagram, 50 64
nickel copper equilibrium diagram 67 85,
86 smelting 86
steel manufacturing 87
electric arc furnacing 119,120
heat treatment 122
alloying 140 induction hardening 159 176
polyethylene 177
polyvinyl chloride 195
hardness test 209 ceramic 201 glass 231 mortar 240
matrix materials 247
welding 266
service requirement 267 http://www.iqytechnicalcollege.com/profdipelectengg.htm#z50 |
60 |
|||||||||||||||||||||||||||||||
UEERE0046 |
Solve problems in stand-alone renewable energy (RE) systems* Solar Electrical System Queensland Photovoltaics System Design www.iqytechnicalcollege.com/PhotoVoltaicsSystemDesign.pdf K125+K135-PV System+PV Inverter.pdf PV
System Installation https://mega.nz/folder/DcxTlISD#sfEHN7oLabxcZRDenUDNFw/file/rZonmARL PV
Software https://mega.nz/folder/DcxTlISD#sfEHN7oLabxcZRDenUDNFw/file/3QoCWKzb Stand alone power system https://mega.nz/folder/DcxTlISD#sfEHN7oLabxcZRDenUDNFw/file/aYhCEK7a System
Installation https://mega.nz/folder/DcxTlISD#sfEHN7oLabxcZRDenUDNFw/file/WIoFCQrL |
60 |
|||||||||||||||||||||||||||||||
UEERE0048 |
Verify compliance and functionality of an extra-low voltage renewable energy installation* www.iqytechnicalcollege.com/CapstoneLesson.pdf www.iqytechnicalcollege.com/CapstoneLesson.htm CAPSTONE LESSON-QR Code www.iqytechnicalcollege.com/CAPSTONE
LESSON-QR Code.pdf Capstone Lecture 1 https://www.iqytechnicalcollege.com/CapstoneLesson1.mp4 Capstone Lecture 2 https://mega.nz/folder/TdAUmRKC#PfOPIn6Q-DSa1t2bdkiQQg Capstone Lecture 3 https://www.iqytechnicalcollege.com/CapstoneLesson3.mp4 |
40 |
|||||||||||||||||||||||||||||||
Group B: Qualification elective units. |
Weighting Points |
||||||||||||||||||||||||||||||||
UEECD0030 |
Prepare
electrotechnology/utilities drawings using manual drafting and CAD equipment
and software* |
60 |
|||||||||||||||||||||||||||||||
UEECD0031 |
Prepare engineering drawings
using manual drafting and CAD for electrotechnology applications* http://www.iqytechnicalcollege.com/ME-11011-Basic
Engineering Drawing 1 & 2.zip http://www.iqytechnicalcollege.com/etabrevit.htm |
60 |
|||||||||||||||||||||||||||||||
UEERE0047 |
Solve problems in wind energy
conversion systems (WECS) rated up to 10 kW* Wind Energy Conversion System 1(Myanmar+English) Topics-Energy&
Power in Wind, World Wind Energy Wind Energy Conversion System 2 (Myanmar+English) Topics-Wind
Turbine, Aero-dynamic forces, Electricity Generated by
Wind Turbine Day
8 Part 1B RE006
Wind Energy System Page
1 Wind of the world Page
2 Energy & Power in the wind Page 3,4 Wind machines Page 6,7,8,9 Page
14 Aero dynamic force Page 19,20 Aerofoil Page
23 Relative wind velocity Page
24 Wind turbine power 26,27,28 Page
32 Wind energy calculation Page 36 LESSON NOTES RE006- Wind Energy Conversion Systems www.iqytechnicalcollege.com/RE006.zip |
60 |
|||||||||||||||||||||||||||||||
UEERL0001 |
Attach cords and plugs to
electrical equipment for connection to a single phase 230 Volt supply* |
20 |
|||||||||||||||||||||||||||||||
UEERL0002 |
Attach cords, cables and plugs
to electrical equipment for connection to 1000 V a.c. or 1500 V d.c.* http://www.iqytechnicalcollege.com/electricaltrade2022.htm#G106A |
20 |
|||||||||||||||||||||||||||||||
UEERL0003 |
Conduct in-service safety
testing of electrical cord connected equipment and cord assemblies* http://www.iqytechnicalcollege.com/CapstoneLesson.htm |
20 |
|||||||||||||||||||||||||||||||
300 (220 to 380) Group C: Qualification elective units. |
Weighting Points |
||||||||||||||||||||||||||||||||
UEECD0032 |
Produce detailed electrotechnology/utilities
drawings using CAD equipment and software* http://www.iqytechnicalcollege.com/etabrevit.htm ttp://www.iqytechnicalcollege.com/ME
42042-CADCAM.zip |
60 |
|||||||||||||||||||||||||||||||
UEECD0047 |
Supervise and coordinate energy
sector work activities |
40 |
|||||||||||||||||||||||||||||||
UEECO0001 |
Estimate electrotechnology
projects |
40 |
|||||||||||||||||||||||||||||||
UEECO0013 |
Prepare specifications for the
supply of materials and equipment for electrotechnology projects
|
40 |
|||||||||||||||||||||||||||||||
|
|
|
|||||||||||||||||||||||||||||||
UEEIC0015 |
Develop, enter and verify word
and analogue control programs for programmable logic controllers* Australian
Electrician Programmable Logic Controller |
60 |
|||||||||||||||||||||||||||||||
UEERE0011 |
Design grid-connected
photovoltaic power supply systems* http://www.iqytechnicalcollege.com/profdipelectengg.htm#z5 |
60 |