UEE43322 Certificate IV in Electrical - Renewable Energy
www.iqytechnicalcollege.com/UEE43322CIVElectricalRE.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, set up, test, fault find, repair and maintain renewable energy (RE) electrical systems and equipment in buildings and premises. It includes requirements and competencies to select, install, set up, test, fault find, repair and maintain stand-alone RE equipment and systems. There are skills and knowledge covered in this qualification that require a licence or permit to practice. |
The entry requirement for this qualification is: · UEE30820 Certificate III in Electrotechnology Electrician or · a current ‘Unrestricted Electricians Licence’ or its equivalent issued in an Australian state or territory. |
A total of 440 weighting points comprising: 210 core weighting points; plus 230 elective weighting points Choose a minimum of 230 elective weighting points units from the list below, of which: · 20 weighting points must be taken from Group A · a minimum of 60 weighting points must be taken from Group B · a minimum of 30 weighting points must be taken from Group C · between 0 and 80 weighting points can be taken from Group D · between 0 and 120 weighting points can be taken from Group E · between 0 and 60 weighting points can be taken from Group F Packaging Rules
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Group B Elective units |
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Install battery storage equipment
power conversion equipment to grid * |
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Group D Elective units |
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Group E Elective units |
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UEERE0052 Assess energy loads and uses for energy efficiency in commercial facilities* 40 UEERE0053 Assess energy loads and uses for energy efficiency in industrial properties and enterprises* 40 UEERE0061 Design grid-connected photovoltaic power supply systems* 60+UEERE0070 Fault find and repair grid-connected photovoltaic power supply systems (Group C) Concurrent delivery OR Group F Elective units Weighting Points UEECO0015 Provide quotations for installation or service jobs 20 UEECO0017 Source and purchase material/parts for installation or service jobs 20 |
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Core
units |
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Compile and produce an energy sector detailed report
Knowledge Evidence
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60 |
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Implement and monitor energy sector WHS policies and procedures This unit involves the skills and knowledge required to implement and monitor energy sector work health and safety (WHS)/occupational health and safety (OHS) policies and procedures. It includes providing WHS/OHS information to the work group; implementing and monitoring participative arrangements for the management of WHS/OHS; and implementing and monitoring the workplace procedures for identifying hazards, assessing and controlling risks. It also includes implementing and monitoring procedures for dealing with hazardous events, WHS/OHS training, and maintaining WHS/OHS records. Knowledge Evidence · provisions of relevant WHS/OHS legislation · principles and practice of effective WHS/OHS management · workplace hazards, range and selection of control measures · organisational WHS/OHS management systems and policies and procedures needed for legislative compliance · impact of characteristics and composition of the workforce on WHS/OHS management · relevance of WHS/OHS management to other organisational management policies, procedures and systems · analysis of entire work environment and judge WHS/OHS interventions · analysis of relevant workplace data · ability to assess resources needed for risk control · communication techniques · relevant WHS/OHS legislation, including: · resources needed for risk control · hierarchy of risk control measures · relevant safe work method statements (SWMS)/job safety assessments or risk mitigation processes · workplace hazards, range and selection of risk control measures · relevant workplace documentation · relevant workplace policies and procedures training needs analysis.
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Apply safe work practices in the rooftop solar industry This unit involves the skills and knowledge required to apply safe work practices in the rooftop solar industry. It includes identifying health and safety legislation, regulations, standards, codes of practice and workplace requirements and their application to relevant workplace tasks. It also includes working safely at heights, safe manual handling of solar components, asbestos and silica awareness. Work is performed by teams of two or more persons to install and repair domestic or commercial solar rooftop systems. The application of the skills and knowledge described in this unit may require a licence, registration or certification to practice in the workplace. Knowledge Evidence
Videos WORKING AT HEIGHTS Video 19 https://www.youtube.com/watch?v=00f0A1ppnRo Video 20 https://www.youtube.com/watch?v=sYxhX83xLvg Video 21 https://www.youtube.com/watch?v=IClw3tgioVI Rooftop Safety https://www.youtube.com/watch?v=UrLqbxrt33A Safety Harness Fall Protection Fall Protection Safety Standard How to work on steep roof Reference Books See Working at Height, Electricity, Chemical CHEMICALS IN THE WORKPLACE Video 13 https://www.youtube.com/watch?v=-UFVYOUN4UM Video 14 https://www.youtube.com/watch?v=8queMM7VVfw Video 15 https://www.youtube.com/watch?v=h5lcl6Zv-mg Video 16 https://www.youtube.com/watch?v=XL4AI_hvnGA Video 17 https://www.youtube.com/watch?v=uiB8qnlZTAM Video 18 https://www.youtube.com/watch?v=WmIiS8qrpBw WORKING AT HEIGHTS Video 19 https://www.youtube.com/watch?v=00f0A1ppnRo Video 20 https://www.youtube.com/watch?v=sYxhX83xLvg Video 21 https://www.youtube.com/watch?v=IClw3tgioVI CONFINED SPACES Video 22 https://www.youtube.com/watch?v=pmNWLYgMyz4 Video 23 https://www.youtube.com/watch?v=rbfWE7D9RZk Video 24 https://www.youtube.com/watch?v=7_ddT-TFlI8 Video 25 https://www.youtube.com/watch?v=ZXPCeQWd9Bo WORKING WITH ELECTRICITY Video 30 https://www.youtube.com/watch?v=WNE-Fgw8sOg Video 31 https://www.youtube.com/watch?v=NU4k8KUd2ho Video 32 https://www.youtube.com/watch?v=vhtQGQbuq6w LIFE SUPPORT – CPR IN THE WORKPLACE Video 33 https://www.youtube.com/watch?v=FREYDwotESE Video 34 https://www.youtube.com/watch?v=zAouN81I09E Video 35 https://www.youtube.com/watch?v=XHRatUnbAgM Video 36 https://www.youtube.com/watch?v=fb29LCjX4-E Rooftop
Safety Hazards www.iqytechnicalcollege.com/Rooftop
Safety Hazards.pdf Roofs -
WorkSafe ACT www.iqytechnicalcollege.com/Roofs
- WorkSafe ACT.pdf Roof
Anchor Points for Fall Arrest and Fall Restraint http://www.iqytechnicalcollege.com/Roof
Anchor Points for Fall Arrest and Fall Restraint.pdf Roof
edge protection fact sheet www.iqytechnicalcollege.com/Roof
edge protection fact sheet.pdf Roof
Safety_ Avoid Roofing Hazards www.iqytechnicalcollege.com/Roof
Safety_ Avoid Roofing Hazards.pdf Safe-work-roofs-information www.iqytechnicalcollege.com/safe-work-roofs-information.pdf Roof
Safety Solutions www.iqytechnicalcollege.com/Roof
Safety Solutions.pdf Rooftop
Hazards - Fall Protection www.iqytechnicalcollege.com/Rooftop
Hazards - Fall Protection.pdf Working
on the roof www.iqytechnicalcollege.com/Working
on the roof.pdf |
20 |
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Conduct site survey for grid-connected photovoltaic and battery storage systems This unit involves the skills and knowledge required to complete site surveys for grid-connected photovoltaic and battery storage systems. It includes safe work practices, site inspection processes and procedures, service provider responsibilities, consulting with qualified people to assess client energy demand requirements and assessing grid-connected equipment options to meet client requirements and site conditions. It also covers provision of advice to the client on battery storage standards, codes of practices, government/utilities incentive schemes, and information related to the installation of a grid-connected photovoltaic and battery storage systems. Knowledge Evidence Evidence required to demonstrate competence in this unit must be relevant to and satisfy all of Assessment Requirements for UEERE0054 Conduct site survey for grid-connected photovoltaic and battery storage systems · relevant WHS/OHS requirements including: · risk assessment and mitigation processes · safe work method statements (SWMS)/job safety assessments or risk control processes prior to site visit · legislated requirements · roof access and working at heights · electrical safety · basic energy principles · relevant manufacturer specifications · relevant standards, building regulations and codes of practice · stakeholders, required personnel and roles and responsibilities of people involved in design, installation and maintenance · methods for identifying and recording existing electrical infrastructure · relevant local, state and commonwealth requirements · site survey process and information to be gathered, recorded and analysed · energy assessment and review including: · methods for discussing with client energy use patterns and future plans in energy use · methods for collecting energy usage and patterns · consideration of appropriate energy efficient appliances and technologies · data sources · energy services required by the electrical installationgrid-connected photovoltaic systems including: · different equipment types their componentry and configuration · factors that impact equipment type selection related to site and usage characteristics · basic design, installation, and maintenance requirements · connection limitations, requirements · basic configuration of a PV array · environmental considerations and required approvals · grid-connected battery storage systems including: · methods of battery storage · fundamentals of battery storage · different energy storage technologies, associated componentry and system configuration · factors that impact equipment type selection related to site and usage characteristics · life expectancy · basic design, installation and maintenance requirements · basic operation of battery storage systems and integrated systems · installation considerations and requirements for grid-connected photovoltaic and battery storage systems · electrical diagrams for a RE system including: · functional block diagrams for typical grid-connected RE system configurations · architectural and site diagrams to show the locations of equipment, fittings and cabling UEERE0054
Conduct site survey for grid-connected photovoltaic and battery storage
systems
risk assessment and control procedures Managing-electrical-risks_in_the_workplace-v1 www.iqytechnicalcollege.com/managing-electrical-risks_in_the_workplace-v1.pdf http://www.iqytechnicalcollege.com/electricaltrade2022.htm#E137A T1 Risk management and
assessment of risk Video 182 https://www.youtube.com/watch?v=PZmNZi8bon8 Video 183 https://www.youtube.com/watch?v=Cp_XEhexcDw Video 184 https://www.youtube.com/watch?v=fY6KGN72d7Q Video 185 https://www.youtube.com/watch?v=EWdfovZIg2g Video 186 https://video.sas.com/category/videos/risk-management_ T2 Hazards and risks and
control measures in working on construction sites Video 187 https://www.youtube.com/watch?v=PZmNZi8bon8 Video 188 https://www.youtube.com/watch?v=00f0A1ppnRo Video 189 https://www.youtube.com/watch?v=n3jwo2jipvY T3 Hazards associated with
extra-low voltage, low-voltage and high-currents Video 190 https://www.youtube.com/watch?v=5oVcTcRw1WU Video 191 https://www.youtube.com/watch?v=V7dPek4TVeU Video 192 https://www.youtube.com/watch?v=fdxE8bl8Kmo Video 193 https://www.youtube.com/watch?v=4UxH2_5FYBo Video 194 https://www.youtube.com/watch?v=BJNOcHPc8OA Video 195 https://www.youtube.com/watch?v=XDf2nhfxVzg T4 Hazards and risks and
control measures associated with high-voltage Video 196 https://www.youtube.com/watch?v=y_oZ7JmAcEo Video 197 https://www.youtube.com/watch?v=7N0gphIpqfs Video 198 https://www.youtube.com/watch?v=0QqLE0NZYqQ Video 199 https://www.youtube.com/watch?v=j-_U8G5la6M Video 200 T5 Hazards and risks and
control measures in working with low voltage equipment Video 201 https://www.youtube.com/watch?v=5oVcTcRw1WU Video 202 https://www.youtube.com/watch?v=V7dPek4TVeU Video 203 https://www.youtube.com/watch?v=beCG-yRLGl0 Video 204 https://www.youtube.com/watch?v=VubHQtQB4j0 Video 205 https://www.youtube.com/watch?v=Uu1GXRxicao Video 206 https://www.youtube.com/watch?v=aQ-ggQBShLg Video 207 https://www.youtube.com/watch?v=Xj08ZZ3uXSI Video 208 https://www.youtube.com/watch?v=Gkvlk3wN1Dg Video 209 https://www.youtube.com/watch?v=CH35i_IfxwA T6 Hazards and risks and
control measures associated with harmful, devices, materials, gases, dusts
and airborne contaminant Gas Video 210 https://www.youtube.com/watch?v=nMEh4j_G8Nw Video 211 https://www.youtube.com/watch?v=B3eDx8V1a7w Video 212 https://www.youtube.com/watch?v=X7hOIsBZTPE Video 213 https://www.youtube.com/watch?v=lcGvwCtXFTA Video 214 https://www.youtube.com/watch?v=MPA71aPSBoQ Dusts Video 215 https://www.youtube.com/watch?v=pkAmwRfIj7Y Video 216 https://www.youtube.com/watch?v=3X868gVvzH0 Video 217 https://www.youtube.com/watch?v=sWLPMgpMQCU Video 218 https://www.youtube.com/watch?v=3d37Ca3E4fA Video 219 https://www.youtube.com/watch?v=6av4faxxaZg Airborne contaminant Video 220 Video 221 https://www.youtube.com/watch?v=QEB7wE-YFXg Video 222 https://www.youtube.com/watch?v=Tzpz5fko-fg Video 223 https://www.youtube.com/watch?v=yEDAvcHf6pc Video 224 https://www.youtube.com/watch?v=xOaRGBZp6NY Devices Video 225 https://www.youtube.com/watch?v=Veyv2lFc_Fk T7 Determine the degree of
the risk Video 226 https://study.com/academy/lesson/risk-identification-definition-purpose-examples.html Video 227 https://www.youtube.com/watch?v=EWdfovZIg2g Video 228 https://www.youtube.com/watch?v=fY6KGN72d7Q Video 229 https://www.youtube.com/watch?v=wSOYZ9RU3AE Video 230 https://www.youtube.com/watch?v=-QbeJvjVWWg Video 231 https://www.youtube.com/watch?v=PZmNZi8bon8 Video 232 https://www.youtube.com/watch?v=BVh2iOMUvik Video 233 https://www.youtube.com/watch?v=Cp_XEhexcDw Video 234 https://www.youtube.com/watch?v=vLjxESIK0qc Video 235 https://www.youtube.com/watch?v=UBYwGbVK0L8 Video 236 https://www.youtube.com/watch?v=zzn2EWUSXng T8 Use control measures to
eliminate or control the risk Eliminate Video 237 https://www.youtube.com/watch?v=yCcJx2ylYMg Video 238 https://www.youtube.com/watch?v=NhROO4JdHrk Video 239 https://www.youtube.com/watch?v=_VVu3DpxJCI Video 240 https://www.youtube.com/watch?v=lrCOIRGpeeM Control Video 241 https://www.youtube.com/watch?v=Cp_XEhexcDw Video 242 https://www.youtube.com/watch?v=DZMb6SAycR8 Video 243 https://www.youtube.com/watch?v=g2JcGBgABJk Reduction Video 244 https://www.youtube.com/watch?v=BqjJ0QHuyOo Video 245 https://www.youtube.com/watch?v=Cp_XEhexcDw Video 246 https://www.youtube.com/watch?v=-LzwObt5rwg Video 247 https://www.youtube.com/watch?v=UBYwGbVK0L8 Video 248 https://www.youtube.com/watch?v=SA5F_GIXbok T9 Engaging in monitoring
and reviewing processes to ensure control measures remain valid. Monitoring Video 249 https://www.youtube.com/watch?v=Cp_XEhexcDw Video 250 https://www.youtube.com/watch?v=7CSFrbempH8 Video 251 https://www.youtube.com/watch?v=8nqQ4rwRwm0 Video 252 https://www.youtube.com/watch?v=T96bp0xSkNs Video 253 https://www.youtube.com/watch?v=TdWd_4glh_0 Video 254 https://www.youtube.com/watch?v=c1uBL77UCSY Review Video 255 https://www.youtube.com/watch?v=Enn6GG5IU4o Video 256 https://www.youtube.com/watch?v=p90xzyQ2VzI Video 257 https://www.youtube.com/watch?v=HKWqOWlTG6Q Video 258 https://www.youtube.com/watch?v=UBYwGbVK0L8 Video 259 https://www.youtube.com/watch?v=-LzwObt5rwg identifying all relevant stakeholders and qualified personnel required to complete site survey communicating effectively with clients to discuss: requirements for site assessment and information to be collected roles/responsibilities of people involved in design, installation and maintenance industry standards, building/electrical regulations and codes, and risk minimisation relevant to the installation www.iqytechnicalcollege.com/AS4777Standard.pdf benefits and options of photovoltaic and battery storage systems and energy management Lesson Slides www.iqytechnicalcollege.com/RE004-Energy Storage.pdf Lesson Video Energy Storage Systems (Myanmar+English)
Textbook RE Energy Storage www.iqytechnicalcollege.com/RE-Energy Strorage.pdf Reference Energy Storage Study www.iqytechnicalcollege.com/Energy Storage Study.pdf energy storage systems options for suitable battery storage systems www.iqytechnicalcollege.com/energy storage systems.pdf undertaking c and documenting findings including: potential site hazards that may impact installation site access, layout, distances and building structures producing final site survey report. http://www.iqytechnicalcollege.com/How to Perform a Residential Solar Site Survey.pdf solar access and shading https://www.youtube.com/watch?v=iYYqpgTNav0 How to Perform a Residential Solar Site Survey http://www.iqytechnicalcollege.com/How to Perform a Residential Solar Site Survey.pdf www.iqytechnicalcollege.com/Solar Site Survey.pdf gathering information about existing electrical installation and any existing energy generation elements Electrical Data www.iqytechnicalcollege.com/Electrical Data.pdf current energy usage including maximum power and energy demand www.iqytechnicalcollege.com/Maximum and minimum demand.pdf current and expected future energy generation needs including maximum power demand www.iqytechnicalcollege.com/future-of-energy.pdf working with qualified personnel as required to complete site survey https://www.youtube.com/watch?v=gv_OwtR7KEQ https://www.youtube.com/watch?v=8cYM7zDHNYM Installer guide http://www.iqytechnicalcollege.com/Installer’s Guide To Performing A Solar Site Survey.pdf options for suitable photovoltaic generating systems www.iqytechnicalcollege.com/RE-Grid Connected Electrical System Textbook.pdf options for placement of system components, any restrictions or issues of concern potential installation problem/s and recommend solutions Solar Thermal Installation www.iqytechnicalcollege.com/RE-Solar Thermal Installation.pdf |
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Install battery storage to power conversion equipment* This unit involves the skills and knowledge required to install battery storage systems to Power Conversion Equipment (PCE). It includes working safely and to industry installation standards, placing and securing system components accurately, making required circuit connections and completing the necessary installation documentation Knowledge Evidence Batteries including: · meaning of the terms that define aspects of batteries including: · battery · cell · primary and secondary cells charge and discharge rate · depth of discharge (DOD) · nominal voltage · amp hour capacity · state of charge (SOC) · watt hour capacity · usable capacity · cycle life · major features of commercially available types of batteries suitable for battery storage systems · factors affecting the life of commercially available types of batteries including the estimation of battery life · common reasons for failure of commercially available batteries · charging regimes suitable for commercially available types of batteries · hazards associated with handling, installing or maintaining commercially available types of batteries and risk control measures · hazards during fault conditions · procedures for safe disposal and recycling of commercially available types of batteries · battery storage systems including: · applications for battery storage including: · electrical energy supply during grid outages · electrical energy supply direct to loads during periods of high tariffs · network / aggregator provider requirements · purpose of each component in battery storage systems for PV systems · communications, monitoring and metering · objectives of battery storage · purpose of each component in a battery storage system for PV system · typical configurations of battery storage systems for PV systems · types and applications of PCEs · diagrams and drawings including: · electrical systems circuit diagrams of typical battery storage systems · all major components · protection devices · earthing · isolation · switching · metering · equipment location plan/s to show the locations of equipment, fittings and cabling · single line diagrams of battery storage systems · site diagrams to show the locations of equipment, fittings and cabling power conversion equipment · battery storage systems fault finding: · fault finding procedures including: · fault finding procedures for individual equipment · fault finding procedures for interconnected systems · maintenance requirements including relevant industry standards, regulations and manufacturer requirements · battery storage systems maintenance procedures including: · maintenance requirements for individual equipment · maintenance requirements for interconnected systems. · battery storage systems testing and commissioning procedures including: · safe testing of equipment · safe testing of system operation · commissioning of energy storage system. Battery_Energy_Storage_System_ www.iqytechnicalcollege.com/Battery_Energy_Storage_System_02Feb2021.pdf Renewable energy battery storage
installations www.iqytechnicalcollege.com/Renewable
energy battery storage installations.pdf Battery-installation-guidelines www.iqytechnicalcollege.com/battery-installation-guidelines.pdf New
standard for renewable energy battery storage installation www.iqytechnicalcollege.com/New standard.pdf Battery System www.iqytechnicalcollege.com/Emergency
Battery System.pdf Video https://www.youtube.com/watch?v=hhwIEGHWV9A https://www.youtube.com/watch?v=_BqMGCmkuSM https://www.youtube.com/watch?v=Mwu2JH2Q_TI https://www.youtube.com/watch?v=HkS3tzAVYGY |
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Install photovoltaic systems to power conversion equipment This unit involves the skills and knowledge required to install and commission a photovoltaic (PV) power system to power conversion equipment (PCE). It includes working safely to industry installation standards, matching PV components specified for a given location, placing and securing system components accurately, making required circuit connections and completing the necessary installation documentation * 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: · PV array installation requirements, including: · WHS/OHS requirements and methods for working on roofs · methods to ensure integrity of building and waterproofing · common types of PV array mounting frame construction and fixing methods · methods of tilt angle adjustment · electrical PV array installation requirements, including: · methods used in wiring and connecting PV arrays in accordance with relevant industry standards · considerations involved in: · wiring of PV arrays · the location of associated system equipment · cable route from PV array/s to power conversion equipment (PCE) · system installation including: · installation of a PV array in accordance with relevant industry standards and WHS/OHS guidelines · correct isolation and shutdown procedures · required vegetation control to remove or reduce shading or soiling on a PV array · PCE including: · types of PCEs used in renewable energy systems · the basic function of a PCE · PCE operation · PCE characteristics · PV modules, including: · cell, module, array · efficiency · typical applications · mechanical and electrical features necessary for the long life of a PV module · module characteristics including: · I-V curve, operating point, MPP, power and voltage temperature co-efficient, Standard Test Conditions (STC), nominal operating cell temperature (NOCT) · major ratings of a PV module from manufacturer’s information or nameplate data · configuration of a typical PV array · the effect of partial shading of a PV module or array · Industry Standard requirements for the verification of system components selection including: · balance of the system components, including cabling and wiring systems, circuit protection and isolation equipment for a grid-connected PV system · schematic diagrams of common grid-connected PCE circuit configurations, including metering arrangements, isolation and connection with respect to residual circuit devices (RCDs)" · system documentation required by industry standards · relevant manufacturer specifications · relevant industry standards · relevant WHS/OHS legislated requirements · relevant workplace documentation, policies, procedures and standards · risk mitigation processes. Textbooks 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 ‘ LESSON NOTES
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Maintain renewable energy (RE) apparatus * This unit involves the skills and knowledge required to maintain renewable energy (RE) apparatus. It includes preparing to maintain RE apparatus, completing routine maintenance of RE apparatus, completing and reporting on maintenance activities. Performance 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 on at least two occasions and include: · applying relevant work health and safety (WHS)/occupational health and safety (OHS) requirements, including the use of risk control measures · completing visual inspection of system and identifying any hazards and/or anomalies · completing routine scheduled maintenance in accordance with maintenance schedule, technical standards and safety requirements · monitoring and documenting performance of system · completing physical repairs · completing required documentation. 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: Video Wind & Solar Inverter Repairs - Rom Control http://www.iqytechnicalcollege.com/Wind & Solar Inverter Repairs - Rom Control.pdf Solar
Panel Maintenance www.iqytechnicalcollege.com/Solar Panel Maintenance.pdf TOTAL
ELECTIVE POINTS 230 |
20 |
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Group B Elective units (Up to 60) (30 points) |
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Install battery storage equipment power conversion equipment to grid * This unit involves the skills and knowledge required to install battery storage equipment power conversion equipment (PCE) to grid. It includes working safely and to industry installation standards, placing and securing system components accurately, making required circuit connections and completing the necessary installation documentation. 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 the following. Additional advice and definitions for some items is provided in the UEE Training Package Companion Volume Implementation Guide (CVIG). · grid-connected storage systems installations: · installation requirements including: · installing power conversion equipment (PCE) suitable for connecting to battery storage in accordance with system design documentation, relevant industry standards, regulations and manufacturer requirements · installing all balance of system equipment in accordance with system design documentation, relevant industry standards, regulations and manufacturer requirements · types and applications of PCEs · diagrams and drawings including: · electrical systems circuit diagrams of typical grid-connected energy storage systems including: · AC loads being supplied during periods when grid is unavailable · all major components · protection devices · earthing · isolation · switching · metering · equipment location plan/s to show the locations of equipment, fittings and cabling · single line diagrams of energy storage systems for grid-connected PV systems including modifications to switchboard to cater for specified loads · site diagrams to show the locations of equipment, fittings and cabling · energy management strategies · PCEs including: · differences between multimode and grid connect · output rating of a multimode PCE in relation to: · required maximum demand · capacity for battery charging · program parameters for a multimode inverter, for the correct operation of the system · blackout protection · grid-connected storage systems fault finding: · fault finding procedures for individual equipment · fault finding procedures for interconnected systems · maintenance requirements including relevant industry standards, regulations and manufacturer requirements · grid-connected energy storage systems maintenance procedures including: · maintenance requirements for individual equipment · maintenance requirements for interconnected systems. grid-connected storage systems testing and commissioning procedures including: · safe testing of equipment · safe testing of system operation · commissioning of energy storage system. Lesson Video Energy Storage Systems (Myanmar+English)
Textbook RE Energy Storage www.iqytechnicalcollege.com/RE-Energy Strorage.pdf Textbook Grid Connected PV System www.iqytechnicalcollege.com/RE-Grid Connected Electrical System Textbook.pdf Reference Energy Storage Study www.iqytechnicalcollege.com/Energy Storage Study.pdf energy storage systems options for suitable battery storage systems www.iqytechnicalcollege.com/energy storage systems.pdf |
30 |
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Group D Elective units (Up to 80 points ) (TOTAL 80 Points) |
Weighting Points |
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Design grid-connected battery storage systems * This unit involves the skills and knowledge required to design battery storage systems. This unit applies to a person with a sound knowledge of the components and different system configurations of battery storage systems for grid-connected photovoltaic (PV) systems and suitable energy management strategies that can be applied to the site where a system can be installed. A person competent in this unit will be able to design a system, which includes calculating and selecting the correct sized equipment, so the system output performance meets the client specific objectives, within the guidelines of relevant industry standards, regulations and manufacturer requirements. The unit involves designing a system taking into consideration all necessary work health and safety requirements relevant for the selected system and documenting the design including all calculations, equipment specifications and layouts. This unit is appropriate for Licenced Electricians or Electrical Engineers with responsibility for designing grid-connected battery storage 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 the following. Additional advice and definitions for some items is provided in the UEE Training Package Companion Volume Implementation Guide (CVIG). · batteries including: · meaning of the terms that define aspects of batteries including: · battery · cell · primary and secondary cells charge and discharge rate · depth of discharge (DOD) · nominal voltage · amp hour capacity · state of charge (SOC) · watt hour capacity · usable capacity · cycle life · hazards associated with batteries and risk control measures · major features of batteries suitable for grid-connected systems · factors affecting the life of batteries · common reasons for failure of batteries · charging regimes suitable for batteries · procedures for safe disposal and recycling of batteries · battery storage energy demand including: · load profiles illustrating average demand and maximum demand, based on appliances required during grid outages or during periods of high tariffs · total energy demand including: · energy required during periods of high tariffs · length of time of typical or expected grid outage · grid connected battery storage systems including: · applications for battery storage including: · electrical energy supply direct to loads during periods of high tariffs · electrical energy supply during grid outages · network / aggregator provider requirements · communications, monitoring and metering · objectives of grid-connected battery storage · purpose of each component in a battery storage system for grid-connected PV system · typical configurations of battery storage systems for grid-connected PV systems · types and applications of charge controllers · diagrams including: · single line diagrams of battery storage systems for grid-connected PV systems including modifications to switchboard to cater for specified loads · site diagrams to show the locations of equipment, fittings and cabling · energy management strategies · power conversion equipment including: · differences between multimode and grid-connected · output rating of multimode in relation to: · capacity for battery charging · required maximum demand Video https://www.youtube.com/watch?v=rq9UxOIZJXM https://www.youtube.com/watch?v=mMGegoL4Zo8 Textbook Grid Connected PV System www.iqytechnicalcollege.com/RE-Grid Connected Electrical System Textbook.pdf https://www.youtube.com/watch?v=F1q5uIzjj_M Handbook-battery-energy-storage-system www.iqytechnicalcollege.com/handbook-battery-energy-storage-system.pdf |
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Design renewable energy heating systems * This unit involves the skills and knowledge required to design a renewable energy (RE) heating system and its installation. It includes determining and developing RE heating systems design, following design brief, documenting design calculations and criteria and obtaining approval for system design. This unit is appropriate for Licenced Electricians or Electrical Engineers with responsibility for designing RE heating 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 the following. Additional advice and definitions for some items is provided in the UEE Training Package Companion Volume Implementation Guide (CVIG). · heating system technologies including: · types and their application · operating parameters of common systems · system component parameters and specifications · system performance and requirements · installation specifications and requirements including commissioning · design of RE heating, including: · heat transfer including modes of heat transfer · conduction through a flat plate, series flat plates, thick and thin wall pipe, and composite pipes (e.g. lagged pipes and drums) · convection at a flat surface or tube · radiation from a flat surface or tube for black or grey bodies · combined conduction and convection through single or multiple flat plates or thin wall tubes · combined convection and radiation · combined conduction, convection and radiation such as fluid in a tank (convection to wall), through wall and/or insulation (conduction) to outside air (convection and radiation) · heat exchangers - parallel, counter flow and cross flow · combustion and fuels including: · the combustion process · fuels - desirable and undesirable characteristics, solid, liquid and gaseous types, their relative advantages and disadvantages and common methods of combustion · steam including: · importance of steam for heat transfer and power production · steam/water properties and the interrelationship between the various properties for unsaturated or saturated water or steam either superheated, saturated or wet · saturation temperature and pressure, specific enthalpy, specific volume and dryness fraction · refrigeration/heat pump including: · basic principles and terminology · vapour compression cycle · performance criteria · types of refrigerant - designation, properties advantages and disadvantages · daily irradiation including: · definition of the terms: declination angle, reflectance, sunshine hours and extra-terrestrial irradiation · solar radiation data tables and contour maps · energy balance including: · definitions of the terms: transmittance, absorptance, emittance, specific heat, absorber, heat removal factor and stagnation temperature · ways to reduce heat losses from a collector · solar collector including: · five major factors that affect the selection of materials for solar collectors · features of collectors for low, medium and high temperature applications in terms of heat transfer, optical properties and materials of construction · solar collector performance including: · instantaneous efficiency of a solar collector for different inlet temperatures and flow rates · effect of varying inlet temperature and flow rate on the performance of a solar collector · hydraulic circuits including: · definition of the terms: equivalent length, static head, dynamic head and heat exchanger · function of the components in the circuit · effects of water quality on the life and performance of components in the hydraulic circuit · suitable type and size components to minimise hydraulic and energy losses, including pipes, pumps, heat exchangers, expansion tanks, valves and filters for a hydraulic circuit with a given flow rate and head · safety requirements of the hydraulic circuit in terms of temperature, pressure and hydrogen gas release · requirements to balance flow through parallel/series combinations of collector arrays · suitable types and level of insulation for system components to minimise heat losses · domestic solar water heaters including: · definition of the terms: thermosiphon system, pumped storage system and sacrificial anode · function of the components in a domestic solar water heater, including the collector, storage tank, valves, piping, differential controllers, pumps, insulation and support frames · schematic diagram of different types of system configurations showing collectors, storage tank, piping, pumps, filters, valves, heat exchangers and expansion tanks · factors which affect system performance, including storage tank and collector design, system location and collector orientation, water quality, hot water demand and usage pattern · safety requirements that prevent injury from high temperature water and hydrogen gas explosions during installation, maintenance and use of solar water heaters · demand for hot water and irradiation for a given location and collector tilt angle, orientation and shading · selection a suitably sized system for a given demand and location · consequences of under/oversizing of solar water heating systems in terms of the effect on system performance, · installation, commissioning and maintenance requirements for a given situation including location and mounting of collectors, storage tanks, valves, pumps, pipes and ancillary fittings · the capital cost, simple pay back and life cycle cost of solar and electric or gas hot water heaters according to Industry Standards · commercial solar hot water heaters including: · schematic diagrams for different types of system configurations showing collectors, storage tank, piping, pumps, filters, valves, heat exchangers and expansion tanks · steps involved in the design of a commercial solar water heating system assessment of the demand for hot water and irradiation for a given location and collector tilt angle, orientation and shading · selection of a suitably sized system for a given demand and location · consequences of under/oversizing of a solar water heating system in terms of system performance, · installation, commissioning and maintenance requirements for a given situation, including location and mounting of collectors, storage tanks, valves, pumps, pipes and ancillary fittings · the capital cost, simple payback time and life cycle cost of solar and electric or gas hot water heaters according to Industry Standards · pool solar hot water heaters including: · function of the components of solar pool heating systems · typical system configuration · two factors which affect system performance · installation specifications and requirements · WHS/OHS policy, workplace procedures and instructions · relevant manufacturer specifications · relevant Industry Standards RE003-
Solar and Thermal Energy Systems 5.RE003 Solar & Thermal Energy System www.iqytechnicalcollege.com/Solar
& Thermal Energy System.pdf RE-Solar Thermal
Installation www.iqytechnicalcollege.com/RE-Solar
Thermal Installation.pdf Day 7
Part 1 Solar and Thermal Energy Systems 1 (Myanmar+English) Topics-Solar
Energy & Thermal Conversion Solar and Thermal Energy Systems 2 (Myanmar+English) Topics-Heat
Exchanger, District Heating, Combined Heat & Power Solar and Thermal Energy Systems 3 (Myanmar+English) Topics-Domestic
Solar Heating & Cooling, Earth Heat Reservoir RE003 Solar & Thermal
Energy System Slide
1,2,5,6,9,11,14,15,20,21,24,25,31,33,35,37,39,42,44,46,47,53,57,58,61,63,69,71,73,77,100,117,118,122,123,126,130,137,138,148,151,152,154 Solar energy+ Measurement
of irradiation Page 1 to 15 Solar water heating system
+ Collectors Page 20 to 39 Solar water heater + Heat
exchanger Page 42 to 63 Combined hot water
system Page 100 to 148 Dielectric +Heating system
+ Earth Reservoir Page 151 to
154 RE003- Solar and Thermal Energy Systems www.highlightcomputer.com/Day
7 Part 1 RE003- Solar and Thermal Energy Systems.zip LESSON NOTES RE003- Solar and Thermal Energy Systems www.iqytechnicalcollege.com/RE003.zip ASSIGNMENT Page
18 All questions of www.highlightcomputer.com/BEGeneralREAssignment.pdf |
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Group E Elective units (Required up to 120 points (TOTAL 140 Counted 120 Points) |
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Assess
energy loads and uses for energy efficiency in commercial facilities* |
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Assess
energy loads and uses for energy efficiency in industrial properties and
enterprises* |
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UEERE0052 This unit involves the skills and knowledge required to undertake energy audits to assess energy loads of commercial facilities, evaluate the energy efficiency of the facilities and to make recommendations on design implementations. This unit also applies to office, retail, and multi dwelling residential facilities. It includes working safely, applying extensive knowledge of commercial electrical installations and components and their operating parameters, gathering and analysing data, applying problem-solving techniques, and developing and documenting engineering solutions. Knowledge Knowledge 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. Additional advice and definitions for some items is provided in the UEE Training Package Companion Volume Implementation Guide (CVIG). · relevant WHS/OHS legislated requirements and relevant organisational procedures and practices, job safety assessments or risk control processes and types of personal protective equipment (PPE) to be used when conducting on-site assessments of commercial energy use · alternative energy production and storage technologies applicable to commercial buildings · energy ratings and power consumption of appliances and equipment and how they are calculated · energy types and units of measurement Assessment Requirements for UEERE0052 Assess energy
loads and uses for energy efficiency in commercial 2023 Australian Industry Standards · key requirements of relevant codes, standards, regulations and government incentive programs for commercial energy efficiency · major systems and other sources of commercial energy use including: · cooking · refrigeration · washing and drying · home entertainment and home office equipment · heating and cooling · internal and external appliances · swimming pools and spas · water heating · water pumps · building management systems · use of renewables and energy storage · electric vehicles · compressed air · power factor correction · peak demand charge · variable speed drives · industrial/commercial lighting · industrial/commercial ventilation · methods for interpreting energy bills including: actual and estimated bills, plans and tariffs · strategies for improving commercial energy efficiency including impact of building design, proximity and orientation on heating/cooling energy use, upgrade options and behavioural changes · trends in energy use and emissions · water supply, use, auditing services and design · greenhouse gas emissions, ecological impacts and resource use · energy management, legislation and regulation relevant to commercial, multi-dwelling residential, office and retail premises · energy auditing and practice · energy management · power and energy data recording · lighting services and efficient design · thermal performance and climate control · food storage and preparation services and efficient design · water heating services and efficient design · entertainment and administration services and efficient design · cleaning services and efficient design · pumping systems (and pools) and efficient design · smart metering solutions UEERE0053 Develop
effective engineering strategies for energy reduction in buildings Building Design+Material Science-K041+E047.zip Building Design +Material Science www.highlightcomputer.com/K151A Energy Efficient
Building-Mod.zip Energy
Efficient Building Design Textbook 1 Energy
Efficient Building Design Textbook 2 Energy
Efficient Building Design Textbook 3 K041+E047+K151+E080 Page 502 to 528 of www.highlightcomputer.com/Video Lessons.pdf K041 Lesson 1-Solar
Design.zip K041 Lesson 2-Basic
psychrometric chart.zip K041 Lesson 3-Total
heat resistance.zip K041 Lesson 4-U value
Heat conductance calculation.zip K041 Lesson 5-Glazing+Net
Heat gain heat loss.zip K041 Lesson
7-Insulation+ Thermal mass.zip K041 Lesson 8-Thermal
mass insulation.zip K041 Lesson
9-Airconditioning load calculation.zip K041 Lesson 10-Heat
gain per day.zip K041 Lesson 11-Ventilation.zip K041 Lesson
12-Building heating load K041 Lesson 13-Design Assessment
Tools K041 Lesson 14-Design
for Australian climate.zip K041 Lesson
15-Domestic solar hot water system.zip K041 Lesson 16-Energy
efficiency+Lighting.zip K041 Lesson
17-Illumination+Smoke alarm.zip K041_Lesson_18-Water_supply.zip K041_Lesson_19-Ventilation+Lighting_control.zip K041_Lesson_20-Electrical_system_design.zip K041_Lesson_21-Building_materials.zip The links contain the
following lessons K041 Lesson 1-Solar Design K041 Lesson 2-Basic Psychrometric K041 Lesson 3-Total heat
resistance K041 Lesson 4-U value Heat
conductance calculation K041 Lesson 5-Glazing+Net Heat
gain heat loss K041 Lesson 6-Shading K041 Lesson 7-Insulation+
Thermal mass K041 Lesson 8-Thermal mass
insulation K041 Lesson 9-Airconditioning
load calculation K041 Lesson 10-Heat gain per day K041 Lesson 11-Ventilation K041 Lesson 12-Building heating
load calculation K041 Lesson 2-Basic psychrometric
chart K041 Lesson 13-Design assessment
tools K041 Lesson 14-Design for
Australian climate K041 Lesson 15-Domestic solar
hot water system K041 Lesson 16-Energy efficiency+Lighting K041 Lesson 17-Illumination+Smoke
alarm K041 Lesson 18-Water supply K041 Lesson
19-Ventilation+Lighting control K041 Lesson 20-Electrical system
design K041 Lesson 21-Building materials Power
Factor Control G015(AG)Lesson
11-PF Control+Fuel cell.zip Cleaning Service Clean using environmentally
sustainable work practices.pdf www.iqytechnicalcollege.com/Clean.pdf UEERE0052 This unit
involves the skills and knowledge required to assess energy loads, undertake
energy audits of industrial properties and enterprises, evaluate the energy
efficiency of the facilities and make recommendations on design
implementations. It includes working safely, applying knowledge of industrial
electrical installations and components and their operating parameters,
gathering and analysing data, applying problem-solving techniques, and
developing and documenting engineering solutions. 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. Additional advice and
definitions for some items is provided in the UEE Training Package Companion
Volume Implementation Guide (CVIG). · relevant WHS/OHS legislated
requirements and relevant organisational procedures and practices, job safety
assessments or risk control processes and types of personal protective
equipment (PPE) to be used when conducting on-site assessments of industrial
properties and enterprises energy use · alternative energy production and
storage technologies applicable to industrial properties and enterprises As UEERE0052 PLUS relevant
WHS/OHS legislated requirements and relevant organisational procedures and
practices, job safety assessments or risk control processes and types of
personal protective equipment (PPE) to be used when conducting on-site
assessments of industrial properties and enterprises energy use · alternative energy production and
storage technologies applicable to industrial properties and enterprises. RE007-
Energy System Efficiency 6.RE007 Day 16
Part 1 Energy System Efficiency 1 (Myanmar+English) Topics-Unit
Energy, Energy used by day Energy System Efficiency 2 (Myanmar+English) Topics-Comparison
of energy usage, Solar Farming Energy System Efficiency 3 (Myanmar+English) Topics-Regeneration,
Combined Heat& Power Energy System Efficiency 4 (Myanmar+English) Topics-Heat
Transfer, Energy Efficient Building Construction Energy System Efficiency 5(Myanmar+English) Topics-Energy
Survey, Building Survey, Lighting Control Day 16 Part 1 RE007- Energy System Efficiency (Electrical)(Mechanical) www.iqytechnicalcollege.com/Energy
Effciciency.pdf RE007 Energy Efficiency Page 1,3,4,5,6 Energy
Use Page 11 Water use Page 16 Comparison Page 19,20 Solar farming Page 21,25,26,27,30 Bulb efficiency Page 35,40,45,46 Regenerative braking Page 48, 49, 53 CHP Page 55, 57, 58 Efficient electricity use Page 61, 64, 66 Car Page 68,69,70, Ventilation Page 76, 78, 86 Energy efficient office Page 92,93,94,95,110 Power system in energy efficiency Page 111 Survey Page 115,118,119,120 Building survey Page 122, 123 |
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Design grid-connected photovoltaic power supply systems * THIS UNIT IS ALSO INCLUDED IN GROUP D This unit involves the skills and knowledge required to design battery storage systems. This unit applies to a person with a sound knowledge of the components and different system configurations of battery storage systems for grid-connected photovoltaic (PV) systems and suitable energy management strategies that can be applied to the site where a system can be installed. A person competent in this unit will be able to design a system, which includes calculating and selecting the correct sized equipment, so the system output performance meets the client specific objectives, within the guidelines of relevant industry standards, regulations and manufacturer requirements. The unit involves designing a system taking into consideration all necessary work health and safety requirements relevant for the selected system and documenting the design including all calculations, equipment specifications and layouts. This unit is appropriate for Licenced Electricians or Electrical Engineers with responsibility for designing grid-connected battery storage systems. Knowledge Evidence Evidence required to demonstrate competence in this unit must be relevant to and satisfy all of the requirements of the elements and performance criteria and include knowledge of: · solar resource including: · peak sun hours, irradiance, irradiation, latitude, azimuth and altitude angles, tilt angle · interpretation of solar irradiation data · how irradiation varies throughout the year on the surface of a fixed collector · factors affecting the optimal tilt and orientation of PV arrays · effect on solar resource of tracking · PV modules, including: · cell, module, array types, efficiencies and their typical applications · mechanical and electrical features necessary for the long life of a PV module · module characteristics including: · I-V curve, operating point, MPP, power and voltage temperature co-efficient, Standard Test Conditions (STC), nominal operating cell temperature (NOCT) · major ratings of a PV module from manufacturer’s information or nameplate data · configuration of a typical PV array · the effect of partial shading of a PV module or array · relevant industry standard requirements for installation of grid-connected PCE · verification of site survey data and application in design · PV arrays selection including: · selection and sizing of PV array for a grid-connected power conversion equipment (PCE), based on energy demand, budget constraints, architectural constraints or limitations on available PCE sizes · determining the minimum and maximum number of PV modules in a string for the specified voltage · system components selection including: · balance of the system components, including cabling and wiring systems, circuit protection and isolation equipment for a grid-connected PV system · schematic diagrams of common grid-connected PCE circuit configurations, including metering arrangements, isolation and connection with respect to residual circuit devices (RCDs) · other design considerations including: · energy yield, specific energy yield · calculation of incentives · regulatory and legal obligations · PCEs including: · types of PCEs used in grid connected systems · the basic function of PCEs · PCE operation · PCE characteristics · PV grid-connected system operation including operation of grid interactive safety requirements · grid-connected PCE selection including: · operating window of the PCE for the expected minimum and maximum effective cell temperatures · selection of an PCE rating with respect to the output power of the array/s · major installation requirements for all system components which will ensure correct operation, long life, safety and ease of maintenance consistent with industry standards and relevant WHS/OHS guidelines · selection of a suitable location for the PV array, PCE and other components, at a given installation site ypical installation configurations for grid connection of PV systems via power conversion equipment · installation requirements for a grid connected system · labelling and signage requirements · relevant manufacturer specifications · relevant risk mitigation processes · relevant WHS/OHS legislated requirements · relevant workplace documentation · relevant workplace policies and procedures. UEERE0070 - Fault find and
repair grid-connected photovoltaic power supply systems This unit involves the skills and knowledge required to fault find and repair grid-connected photovoltaic (PV) power supply systems. It includes providing known solutions to predictable problems in photovoltaic modules arrays and energy storage systems. The skills and knowledge described in this unit require a licence or permit to practice in the workplace, where work is carried out on electrical installations which are designed to operate at voltages greater than 50 volt (V) alternating current (a.c.) or 120 V direct current (d.c.). Competency development activities in this unit are subject to regulations directly related to licensing. Where a licence or permit to practice is not held, a relevant contract of training, such as an Australian Apprenticeship, is required. UEERE0071 Fault find and
repair off-grid photovoltaic/generating set systems to an electrical
installation This unit involves the skills and knowledge required to fault find and repair off-grid photovoltaic (PV)/generating set (genset) systems to an electrical installation. It includes preparing to work on off grid systems, solving problems in off grid systems and completing work and documenting problem-solving activities. The skills and knowledge described in this unit require a licence or permit to practice in the workplace where work is carried out on electrical installations, which are designed to operate at voltages greater than 50 volt (V) alternating current (a.c.) or 120 V direct current (d.c). UEERE0063 Design off-grid photovoltaic/generating set systems This unit involves the skills and knowledge required to design off-grid photovoltaic (PV) / generating set (Genset) systems. It includes determining and developing off-grid PV systems design including gensets, following design briefs, documenting design calculations and criteria, and obtaining design approval. This unit is appropriate for Licenced Electricians or Electrical Engineers with responsibility for designing off-grid photovoltaic/generating set systems. Video Textbook Grid Connected PV System www.iqytechnicalcollege.com/RE-Grid Connected Electrical System Textbook.pdf PV System Design www.iqytechnicalcollege.com/PV
System Design.pdf VIDEOS Page 491 to 501 of www.highlightcomputer.com/Video
Lessons.pdf Renewable
Energy+ Photovoltaic Inverter K035 Lesson 1-Inverter principle.zip K035 Lesson 2-Modified sine wave
inverter.zip K035 Lesson 3-Pulse width modulation.zip K035 Lesson-5 MOSFET Driver.zip K035 Lesson-6 PWM Inverter.zip K035 Lesson-7 Grid Connected Inverter.zip K035 Lesson-8 Inverter Power Flow
Model.zip The links contain the
following lessons K035 Lesson 1-Inverter principle K035 Lesson 2-Modified sine wave
inverter K035 Lesson 3-Pulse width
modulation K035 Lesson 4-PV Inverter K035 Lesson-5 MOSFET Driver K035 Lesson-6 PWM Inverter K035 Lesson-7 Grid Connected
Inverter K035 Lesson-8 Inverter Power
Flow Model |
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Group F
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UEECO0015 Provide quotations for installation or
service jobs 20
UEECO0017 Source and purchase material/parts for
installation or service jobs 20
This unit
involves the skills and knowledge required to provide quotations for
electrotechnology installation and service work that includes minor
installations deemed to be less complex than a major installation requiring
involved delivery structures and specialised supervision up to $AU100,000. It
includes determining job specifications, using manufacturer catalogues, making
enquiries, selecting compliant materials, pricing materials and labour costs,
completing quotation documentation and applying workplace customer relations
protocols.
Performance
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 on at least two separate occasions and include: · applying relevant work health and
safety (WHS)/occupational health and safety (OHS) requirements · communicating effectively with
suppliers and customers ·
costing small or minor jobs up to the value of $100,000, including: · allocating resources to be quantified
and costed · costing
labour plant and materials ·
calculating service costs and margins · dealing with unplanned customer
events/situations in accordance with workplace procedures · determining list of material (also
known as material take off), including type and quantity · determining scope and extent of
quotation work ·
developing minor quotation and checking calculations using costing methods in
accordance with workplace procedures · documenting and submitting quotation
in accordance with workplace procedures.
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: · enterprise communication methods,
including: ·
communicating with personnel involving oral communications, written procedures,
and work instructions ·
communicating with customers and suppliers · work activities records, including: · methods for recording and maintaining
work records · purpose
and extent of maintaining work activities records in an enterprise · types of records for maintaining work
activities in an enterprise
work records required by regulation requirements · enterprise customer relations protocols, including: · dealing with customer issues · procedures for dealing with customers · purpose of customer relations · costing methods in an enterprise, including: · costing policy · labour charge out rates · margins · purchase prices and discounts for materials · costing small jobs, including: · costing labour plant and materials · resources to be quantified and costed · service costs and margins · relevant equipment manufacturer specifications · relevant risk mitigation processes, including risk control measures · relevant WHS/OHS legislated requirements · relevant workplace costing policies.
This unit
involves the skills and knowledge required to source and purchase/order
materials/parts for installation or service jobs. It includes determining job
specifications, using manufacturer catalogues, making purchasing enquiries,
selecting appropriate materials/parts and completing relevant purchasing documentation.
In this unit, the value of materials for small installation jobs is limited to
$AUD20,000.
Performance
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 on at least two separate occasions and include: · applying at least two different
methods to source materials ·
applying relevant work health and safety (WHS)/occupational health and safety
(OHS) requirements, including risk control measures · dealing with unplanned events in
accordance with workplace procurement procedures · determining material and part
availability and arranging supply · determining relevant materials/parts
to purchase ·
determining scope of work and materials/parts procurement requirements from job
specifications ·
documenting materials/parts purchases · obtaining approval to purchase in
accordance with workplace procurement procedures · sourcing, obtaining quotes and
purchasing appropriate materials/parts in accordance with workplace procurement
procedures.
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: · computers and applications, including:
· entering
information · printing
· saving · selecting application · starting up · job or project specifications · relevant part and material
manufacturer specifications ·
relevant risk mitigation processes including risk control measures · relevant WHS/OHS legislated
requirements
relevant
workplace documentation, including: · methods for recording and maintaining
work records · purpose
and extent of work activities records · regulatory work record requirements · types of records for maintaining work
activities · relevant
workplace policies and procedures, including procurement procedures, including:
· common
or preferred suppliers ·
delegated authority to purchase · procurement approvals process and
procedures ·
purchasing systems ·
sources or suppliers for obtaining materials/parts · workplace communication methods,
including: ·
communicating with customers ·
communicating with personnel ·
communicating with suppliers ·
oral and written communication
Audio
https://www.iqytechnicalcollege.com/001_A_001_Z0000430.mp3
Video
he links contain the
following lessons
E071+G069+G070 Lesson 1 Project
management planning
E071+G069+G070 Lesson 2 NSW
service rule+Marketing
E071+G069+G070 Lesson 3+4 Contract
planning + HV conductor
E071+G069+G070 Lesson 5 Project
modelling
E071+G069+G070 Lesson 6 Job planning
E071+G069+G070 Lesson 7 Line
infrastructure + Material planning
E071+G069+G070 Lesson 8 Problem
solving and decision making
E071+G069+G070 Lesson 9 Control
of project+Maintenance specialist work
E071+G069+G070 Lesson 10 Contract
bid work
E071+G069+G070 Lesson 11 Project
structure
E071+G069+G070 Lesson 12 Analysing
plan+ Insurance
E071+G069+G070 Lesson 13 Modelling
project
E071+G069+G070 Lesson 14
Project costing+Contracting paper work
E071+G069+G070 Lesson 15 Change
control
E071+G069+G070 Lesson 16
Management leadership+Job accounting
E071+G069+G070 Lesson 17 Management thinking+Contract management
planning
Textbook
Estimation and
Quotation for Electrical Work
http://www.iqytechnicalcollege.com/E071+C003
Lessons.pdf
Class
Teaching
E071+C003
Teaching
http://www.iqytechnicalcollege.com/E071+C003
Teaching.pdf
E071+C003 Class
Notes
http://www.iqytechnicalcollege.com/E071+C003
Class Notes.pdf
References
Electrical
Installation and Estimating
www.iqytechnicalcollege.com/Electrical
Installation and Estimating.pdf
Real World
Electrical Estimating
www.iqytechnicalcollege.com/Real
World Electrical Estimating.pdf
Electrical-estimation-and-costing
www.iqytechnicalcollege.com/electrical-estimation-and-costing.pdf
EE&C
www.iqytechnicalcollege.com/EE&C.pdf
Electrical
Installation Materials
www.iqytechnicalcollege.com/Electrical
Installation Materials.pdf
Regulatory
System
www.iqytechnicalcollege.com/Regulatory
System.pdf
Computer
Applications
ICT 101+102
Information Technology Fundamentals
www.highlightcomputer.com/Day
4 Part 2 Mgt 108 Computer Application in Management.zip
LESSON
www.highlightcomputer.com/Mgt108.zip
www.highlightcomputer.com/Day
4 Part 2 Mgt 108 Computer Application in Management.zip
www.highlightcomputer.com/DipICTAssignments.pdf
Day 6 Part 2 ICT103 Applied Programming.zip (5.21MB)
VIDEO
Day 6 Part 2
REEFERENCE
http://www.highlightcomputer.com/ENPRA%20101A%20Engineering%20Practice.htm