Register of Completed Embedded Generation Projects (Non-registered, typically 30kW to 5000kW) Should you have any questions in relation to this information, please contact us: Email - LCC@energex.com.au Phone - 13 12 53 Page - 1
Introduction In accordance with the National Electricity Rules, Clause 5A.D.1 Publication of Information, Energex provides this register of completed embedded generation projects. Completed non-registered embedded generation projects means all embedded generating units, operated or controlled by a non-registered embedded generator that are connected to the Distribution Network Service Provider's network. Typically these generating systems are in the range of 30kW up to 5000kW output. Energex as a Distribution Network Service Provider must: (1) by the Distribution Annual Planning Report (DAPR) date each year, include in the register the details contained in paragraph (b) for all completed non-registered embedded generation projects since the date the register referred to in paragraph (b) is established; and (2) in the fifth year after the establishment of the register, and in each year thereafter, update the register by the DAPR date with details of all completed non-registered embedded generation projects in the 5 year period preceding the DAPR date. The register is only a guide for potential connection applicants and ENERGEX is not obliged to accept an application based on information in the register. This is due to the potential for specific locational or other requirements that may be unique to a particular connection. Page - 2
Register of Completed Embedded Generation Projects (Non-Registered) # Year Completed Technology of generating unit (e.g. synchronous generating unit, induction generator, photovoltaic array, etc) and its make and model 1 2015/16 Photovoltaic Delta RPI Series. RPI-M20A RPI-M15A Maximum power generation capacity of all embedded generating units comprised in the relevant generating system (kw) 4 x 20kW 1 x 15 kw Total 95 kw Contribution to fault levels (ka) The size and rating of the relevant transformer (Voltages &kva) (415 V) 0.198 11kV /415V 500kVA A single line diagram of the connection arrangement (Refer below) Protection systems and communication systems (Refer Protection Scheme Table below) Voltage control, power factor control and/or reactive power capability (where relevant) Details specific to the location of a facility connected to the network, that are relevant to any of the details. 2 2015/16 Fronius Agilo 100.0-3 3 2015/16 Photovoltaic Sunny TriPower SMA 20000 TL 4 2015/16 Photovoltaic Aurora TRIO 27.6 TL-OUTD 1 x 100kW Total 100kW 4 x 20kW Total 80kW 2 x 27.6 kw Total 55.2kW 0.208 11kV /415V 315kVA 0.166 11kV /415V 1000kVA 0.115 11kV /415V 300kVA LOM 5 2015/16 Photovoltaic Aurora TRIO 27.6 TL-OUTD 3 x 27.6kW Total 80kW 0.166 11kV /415V 100kVA 6 2015/16 Photovoltaic 1 x 22kW 0.154 11kV /415V ABB-TRIO TL-OUTD 1 x 30kW 2 x 11kW 500kVA Total 74 kw 7 2015/16 Photovoltaic 3 x 27.6kW 0.173 11kV /415V Page - 3
ABB-TRIO 27.6 OUTD-S2X Power-One 8 2015/16 Synchronous AC Diesel Generator. Caterpillar Total 83kW 1000kVA 720kW 7.99 11kV /415V 750kVA Refer SLD 2. VVS VVS Protection Schemes DIT VVS LOM NVD NSEQ CBF Direct Intertrip Voltage Vector Shift Rate of Change of Frequency Reverse Power Protection Over voltage /Under voltage Loss of Mains Supply Neutral Voltage Displacement Negative sequence voltage or current Over -frequency / Under-frequency Circuit breaker Fail Page - 4
Single Line Diagrams Solar Single Line Diagram - Typical Installation SLD-1 Page - 5
Synchronous AC Generator Typical Installation SLD - 2 Page - 6