pls go through comments and highlighted portion for the requirement.main body content shall be 15 pages excluding appendix
Spring 2018 ECTE429/629 Smart Power Grids Group Assignment Smart Micro-Grid Design 1. Deadline for submitting the Assignment Report – Week 13 before class time to EIS Central (Penalty for late submission 10% of total assignment mark per calendar day late) 2. Schedule for Oral Presentation – Week 12 during class time (Zero mark if not participated) Task: This assignment is designed as if you are engineers in a company of consultants commissioned by the University of Wollongong in order to convert the electrical power system of Sustainable Building Research Centre (SBRC) at Innovation Campus to a smart micro-grid with an innovative design. You have to come-up with novel ideas in the context of design; then control, operation and grid interactions of the intended micro-grid. The final report will depict preliminary proposals (including suitable simulation case-study results where necessary); that you are going to present in the first technical meeting with your client, University of Wollongong. Layout diagram of the electrical power system of SBRC (i.e., simplified version of actual power system topology) including the necessary data will be available at Moodle site for this subject. Also, your team can organize a filed visit (preliminary site visit) to SBRC at Innovation Campus after consultation with the course coordinator; in order to have more practical insight to the associated engineering problem. Furthermore, you can request your lecturer for additional information required regarding electrical system of SBRC. You may need to make some assumptions about various parameters and analysis; if so, clearly state your assumptions. You are encouraged to use a Systems Thinking (or Whole of Design) approach to this activity. Efficient and effective team work approaches, with adequate levels of time and stress management will lead to a silk road for success of this project. Therefore, you are also encouraged to have a proper time and task plan, brain storming sessions, as well as fine communication and organization among the engineers in your project group. In overall, when marking the project report, the professional approach will also be appreciated in addition to the novel technical content. There are four major subsections to this overall task: 1. Core-concept of intended smart micro-grid design: This can be started from load estimation based on current power demand, connected loads and future growth. Then, it can be proceeded with component sizing, component selection, system design, feasibility report, environmental report, etc. 2. Control architecture of proposed smart micro-grid: Component level control and system level control, control logic or flowcharts, control for avoidance of voltage rise, solar-photovoltaic (PV) and battery energy storage systems (BESS), voltage control and frequency control, voltage-VAr control, etc. Adaptation of supervisory control and data acquisition system comprising necessary communication infrastructure will be a key feature associated with implementation of controls in smart micro-grids. As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Sticky Note electrical layout diagram provided as attachment As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight 3. Operation strategy of the smart micro-grid: Operation philosophies for grid connected and islanded modes, emergency operation, avoidance of power quality problems, operation for different topologies, operation for zero net energy micro-grid concept, etc. 4. Grid interaction strategy of the smart micro-grid: Export/import of energy, net metering, real- time pricing, power utility contract, demand response, energy transactions (buying/selling of energy), grid support (reactive/voltage support, active power support), etc. Supplementary Material: The following supplementary materials are also available in Moodle site for this subject. [1] Rationale [2] Electrical_Layout_Diagram [3] Example Metered Data: 1 Example_MeterAveragePower_15Min 2 Example_MeterAveragePower_15Min Instruction to the Students: The final report is worth 10% of the overall mark in the subject. The length of the text in the main body of your Assignment Report is to be 15 pages excluding Appendix. You can include additional graphical information, tables etc. in an Appendix (not included in the page limit). You must also include all references (reference list), literature review, samples of all important calculations, calculations and steps followed for modelling and simulating the test micro-grid system. Please note that you may be able to collect relevant materials through searching industrial reports, thesis, journals articles and conference proceedings and also from the books available in the library. The report must be of normal professional standard. It must be printed with good quality diagrams. Also softcopy of the report needs to be submitted through email to the Subject Coordinator for checking Similarity. All references must be given following the University of Wollongong format. If a figure is copied, it is most important that figure shows a number in bracket (eg: [14]) at the end of the figure caption showing where it was copied from. In the case of copied sentences, the sentence should be enclosed in “ ” and a reference given. For example, “It is important that the power system be earthed” [12]. You could be severely penalised if un-acknowledged copying is detected. Students in a group should share the work equally and present their work (in the Assignment Report) with highlighting individual contributions in Fair Contribution Sheet available in EIS. The Oral Presentation is worth 5% of the overall mark in the subject. All students in each group should contribute and present in the session. It is recommended to use well designed, optimal number of Power-Point slides. The total presentation time is 10 minutes (6 minutes for presentation delivery + 4 minutes for questions). As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight As Medical Thowfeek Highlight ECTE429/829 Smart Power Grids Group Assignment: Smart Micro Grid Design ASSIGNMENT ASSESSMENT CRITERIA Student Names …………………………. …………………………. …………………………. …………………………. Topic Max. mark % of this assignment Structure/Substance Clearly define the objectives of the report 5 Clearly outline the context designed 5 Core content: Sub section-1 15 Core content: Sub section-2 15 Core content: Sub section-3 15 Core content: Sub section-4 15 Logical and in depth discussion 10 Summarise key findings and provide recommendations 10 Originality Original and creative thought 5 Writing Excellent graphical presentation, style, grammars, spelling, etc. 5 Total 100 As Medical Thowfeek Sticky Note report structure shall strictly align to this format. As Medical Thowfeek Sticky Note structure/substance shall not be less than 15 pages excluding appendix DRAWING REVISIONS UNIVERSITY OF WOLLONGONG SUSTAINABLE BUILDINGS RESEARCH CENTRE ELECTRICAL SERVICES ELECTRICAL CONNECTION OVERVIEW 10 9 8 7 6 5 4 3 2 1 A B C D E F G REV DATE DESCRIPTION INITIAL 1 13/05/14 PROPOSED NEW DRAWING D.R. DESIGNED DRAWN CHECKED DATE DRAWN INITIAL DRAWINGS CLIENT: SCALE: N.T.S JOB No.: 2 30/06/14 MSB MAIN INCOMER METER ARRANGMENT D.R. 3 13/08/14 CORRECTIONS FROM SITE AUDIT D.R. 4 27/02/17 ADDITION OF PLUG-AN-PLAY CONNECTION PANEL D.R. THIS DRAWING AND ITS ASSOCIATED DESIGN IS CONFIDENTIAL AND IS THE EXCLUSIVE PROPERTY OF UNIVERSITY OF WOLLONGONG AND IS NOT TO BE REPRODUCED OR COPIED IN ANY FORM, GIVEN OR LENT TO ANY THIRD PARTY WITHOUT THE EXPRESS CONSENT OF UNIVERSITY OF WOLLONGONG ALL DIMENSIONS ARE IN MILLIMETERS (mm) DO NOT SCALE DRAWINGS 19/05/14 13/05/14 13/05/14 C.McLauchlan D.Robinson D.Robinson C.M. D.R. D.R. SERIAL No.: DRAWING No.: E-01 ACAD REFERENCE: REVISION 4 SHEET No. 1 OF 1 MAIN SWITCHBOARD INCOMER SECTION MAIN SWITCHBOARD LOAD & GENERATION SECTION MAIN SWITCH (3) MAIN INCOMER MAIN SWITCHBOARD LOAD & GENERATION SECTION ENDEAVOUR ENERGY KIOSK SUBSTATION No. 23939 SERVICE PROTECTION DEVICE BI-DIRECTIONAL METER MAINS DECOUPLING CIRCUIT BREAKER SBRC SUPPLY UV & OV (TRIP) UF & OF (TRIP) ROCOF (ALARM) VECTOR SHIFT (ALARM) SUPV. BATTERY SUPPLY SITE MAIN SWITCHBOARD M.I. N.14 EP&T METER M10 HS-2 RAIN WATER M.I. N.1 FLEX LAB 3 ENERGY LAB M.I. N.6 PFC 100kVAr (FUTURE) M.I. N.13 EP&T METER M9 HS-1 COLD WATER TEST POINTS M.I. N.5 MS-2 MECH SERVICES EP&T METER M8 EP&T METER M12 LS-1 ESSENTIAL SECTION M.I. N.7 SD HOUSE PV INVERTER 1 5.0kW SD HOUSE PV INVERTER 2 5.0kW RCB0 PVDB-A M.I. OFFICE PV INVERTER 4 20.0kW I4 M.S. OFFICE PV INVERTER 9 20.0kW I9 M.S. OFFICE PV INVERTER 8 20.0kW I8 M.S. OFFICE PV INVERTER 7 20.0kW I7 M.S. OFFICE PV INVERTER 5 20.0kW I5 M.S. I6 M.S. OFFICE PV INVERTER 6 20.0kW PVDB-A M35+ M36 M37 M38 M20+ M21 M22 M23 M24+ M25 M26 M27 EP&T METER EP&T METER EP&T METER BUS-TIE EP&T METER M4 (3) WIND TUNNEL (FUTURE) EP&T METER M.I. N.3 M.I. N.3 PVDB-C INVERTER (3) EP&T METER M2 M.I. N.2 PVDB-A INVERTERS (3) EP&T METER M3 M.I. N.1 SUSTAINABILITY PRECINCT