Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Code Specifications DL WPP Wind Power Plants – educational
Document related concepts
Wireless power transfer wikipedia , lookup
Opto-isolator wikipedia , lookup
Power factor wikipedia , lookup
Utility frequency wikipedia , lookup
Power over Ethernet wikipedia , lookup
Audio power wikipedia , lookup
Pulse-width modulation wikipedia , lookup
Ground (electricity) wikipedia , lookup
Earthing system wikipedia , lookup
Stray voltage wikipedia , lookup
Induction motor wikipedia , lookup
Power inverter wikipedia , lookup
Power MOSFET wikipedia , lookup
Electric power system wikipedia , lookup
Immunity-aware programming wikipedia , lookup
Electric machine wikipedia , lookup
History of electric power transmission wikipedia , lookup
Electrification wikipedia , lookup
Solar micro-inverter wikipedia , lookup
Electrical substation wikipedia , lookup
Amtrak's 25 Hz traction power system wikipedia , lookup
Buck converter wikipedia , lookup
Voltage optimisation wikipedia , lookup
Variable-frequency drive wikipedia , lookup
Power engineering wikipedia , lookup
Power electronics wikipedia , lookup
Switched-mode power supply wikipedia , lookup
Three-phase electric power wikipedia , lookup
Transcript
Code DL WPP Specifications Wind Power Plants – educational equipment This trainer must allow the students to study the functions and operations of a modern wind power plant simulating the effects of the wind force and their effects on the plant. This system must operate through a brushless machine and the simulation software and the double‐feed asynchronous machine will allow a practical and effective approach to this trainer. The trainer must have modular structure that will grant teachers and students extreme flexibility during the study of the related topics and the performance of the experiments. It must be possible to fit the single modules with insulated front panel on the vertical frame. An interactive multimedia SCADA software must be also available to allow performing the experiments set‐up as well as the visualization and management of the collected data through PC. The control unit of this trainer must allow controlling and operating a speed‐variable double‐feed asynchronous generator. Thanks to this control unit it will be possible to simulate and investigate the operating principles of this topic. This control unit will allow approaching and theoretically in depth analyzing the following topics: • Operation of the double‐feed asynchronous generator; • Integrated power switch for switching the generator on line; • Reactive and active power, frequency and voltage control; • Mains synchronization This trainer must be complete with the relevant SCADA software that can control and set the several operations of the system; with this software it will be possible to adjust the wind speed and profile and to examine the effects on the operating functions of a real wind power plant. Another important feature of this SCADA software will be related to the possibility to control, parameterize and visualize the obtained data. In particular, with this SCADA software it must be possible to perform the following activities: • Measurement, calculation and graphic representation of many mechanical and electrical operating parameters. • Selection of the set‐point values for reactive and active power. • Definition and simulation of wind power and profiles. • Interactive experiments set‐up. • Values and graphs can be stored. Code Specifications • Experiments instructions can be viewed directly from the software. • Possibility to print documents for easy hardcopy printing of experiments instructions with solutions. With this wind power plant trainer it must be possible to perform the following experiments: Study of functions and operations of a modern wind power plant. Relationships between a pitch control system and the wind. • Analysis of the mechanical parameters within an induction generator. • Analysis of the electrical parameters within an induction generator. • Starting method of a wind system • DFIG – doubly fed induction generator. The trainer must be composed of the following didactic equipment. DL 2108T26 BRUSHLESS CONTROLLER with MOTOR Module for the study of the automatic control for a brushless motor • Control and operation of a brushless motor in voltage The system must allow the study of the operation of a brushless motor of a typical industrial process automation. The student must have the opportunity to learn, to control and parameterize an automatic operation. The control and monitoring system must be done through a software that will be able to: • Set system parameters • Draw graphic curves • Monitor real‐time system (torque, speed, etc.) Specifications: 1kW power brushless motor with electronic encoder Control of the system in frequency and voltage Mechanical braking system for the analysis of the torque Encoder outputs for the analysis of speed Display system for controlling and monitoring events Button start and stop action and automatic stop intervention in case of alarm Code Specifications Complete software for PC interfaced to the system via RS485 DL 2108T26BR Braking resistance with cooling fan. DL 1022P4 SLIP RING THREE-PHASE ASYNCHRONOUS MOTOR Induction motor with both stator and rotor three-phase windings. Technical features: Power: 1.1 kW - Voltage: 220/380 V D/Y - Speed: 1680 rpm, 50 Hz It must be possible to couple the electrical machine with other electrical machines through a hub and spider elastic gear ring in polyurethane. It must be supplied with a hooked module in aluminum with PVC label and safety terminals for the electrical connection. A schematic diagram must be shown on the hooked module. Each machine must be mounted on a base and must be provided with: Plate that brings its axis height to the standard measure (112 mm). Plates for the fixing to the base of the machine Four screws for fixing of the machine InterRail Distance of the plates: 160mm Coupling Joint: Diameter: 40mm, length 40mm DL 1013A BASE This item must consist of a steel alloy varnished structure mounted on anti-vibration rubber feet, provided with slide guides for the fixing of one or two machines and with a coupling guard. Complete with a device for the locking of the rotor of the slip ring asynchronous machines in the short-circuit test. Composition: Light alloy base, levelled on the upper supporting planes, with two guides for all the couplings of machines rated 1 kW In the lower section high sensitivity shock absorbers are mounted, arranged to be fixed to a supporting plane. Removable butt strap in varnished plate and flask for the blocked rotor test in varnished light alloy. DL 2108TAL-CP THREE-PHASE SUPPLY UNIT This power supply unit must be suitable hree-phase connection with 4-pole cam mains switch. 25 A current operated earth leakage circuit breaker, sensitivity 30 mA. Three-phase indicator lamps. Code Specifications Output through 5 safety terminals: L1, L2, L3, N and PE. Switch for simulation of wind or photovoltaic energy power source. Modbus RS485 Protocol Communication This module must have insulated type front panel with the electrical scheme; it must include also safety terminals. DL 2109T29 MAXIMUM DEMAND METER The module must consist of a microprocessor controlled three-phase power analyzer. It must have insulated panel and it must be suitable for the measurement of voltages, currents, frequencies, active power, reactive power, apparent power. Input voltage: 450 V (max 800 Vrms) Input current: 5 A (max 20 Arms) Operating frequency: 47 + 63 Hz Auxiliary supply: single-phase from mains On the front panel, it must include a RS485 port, a on/off switch and LCD display with the following features: n. of reading points: 10 000 4 digits energy count: 8 digit counter reading updates: 1,1 seconds DL 2108T02 POWER CIRCUIT BREAKER 3 pcs Three-phase power circuit breaker with normally closed auxiliary contact. • Contact load capability: 400 Vac, 3 A • Supply voltage: single-phase from mains The item must include two light push buttons (one red and one green) and must have insulated front panel. DL 2108T29 BACK TO BACK INVERTER The architecture of a back-to-back converter, needed to feed the rotor windings of a 3-phase doubly-fed induction machine and such that power can flow both ways. A back-to-back converter is needed for a control of a doubly-fed induction machine (an induction machine feeded from both the rotor and the stator) because in some operation ranges the rotor energy may come back to the converter. Code Specifications Technical features: Inverter 1.5 Kw 400 Volt with DC BUS AFE ( Active front End) Regenerative Interface DOUBLE FEED ASYNCHRONOUS GENERATOR AC-DC power regeneration converter acting as AC-DC rectifier with input voltage L1, L2 and L3 and VBUS as output. In will be possible to have the exchanged power with the grid as absorption or as power regeneration, depending on the load needs. Power: 1,5kW In: 4,0A Choke three-phase 17,503mH Nominal thermal current : 4,2A Saturation Peak Current: 14,8A Saturation RMS current: 10,5A Power Eq.: 363VA DC Bus Monitor Display Three phase instrument Monitor grid side / maximum demand meter The module must consist of a microprocessor controlled three-phase power analyzer. It must have insulated front panel and it must be suitable for the measurement of voltages, currents, frequencies, active power, reactive power, apparent power. Input voltage: 450 V (max 800 Vrms) Input current: 5 A (max 20 Arms) Operating frequency: 47 ÷ 63 Hz Auxiliary supply: single-phase from mains On the front panel, it must include a RS485 port, a on/off switch and LCD display with the following features: n. of reading points: 10 000 4 digits energy count: 8 digit counter reading updates: 1,1 seconds Fuse Protection Modbus RS485 Protocol Communication Code Specifications The module must be supplied with manual in English language DL HUBRS485F COMMUNICATION MODBUS module with insulated front panel including: two RS485 inputs and six RS485 outputs. Analog output 1 0 to 10V Analog output 2 0 to 10V One switch for power on/off and a port for power supply connector. DL SCADA3 SOFTWARE SCADA Software that must permit the operations of control and data acquisition. It must be in a form of a Run-time system that must allow users to concentrate on the purpose of the experiments and to obtain the necessary data in a easy and effective way. DL WINDSIM WIND SIMULATOR System composed of: wind speed and direction sensor, power supply, fan, potentiometer, measurement circuit, RJ45 and RS485 port. It must allow simulating the wind force and direction. DL 1155WPP KIT OF CONNECTING LEADS DL 2100-3M-AS FRAME Metal frame with three levels for fitting the modules of the laboratory. DL PCGRID Personal computer supplied with the system SOCKET-MAINS Three-phase sockets holder DL 1001-1-AS Workbench With this system it must be possible to perform additional experiments on the Fault Ride Through thanks to the following optional items: DL 7901TT LINE MODEL Three-phase model of an overhead power transmission line 360 km long, voltage 380 kV and current 1000 A. • Scale factor: 1:1000 Line resistance: 13 Ω, line inductance: 290 mH, mutual capacitance: 1 μF, earth capacitance: 2 μF, earth resistance: 11 Ω, earth inductance: 250 mH DL 2108T18 EARTH FAULT WARNING RELAY Code Specifications module with insulated panel, Multifunction three phase overvoltage/ undervoltage relay. Threephase voltage relay, suitable for protection of HV, MV, LV power transmission and distribution systems. The relay must measure the true R.M.S. value of the 3 phase to neutral voltages fed to three transformers. It must be provided with two under voltage elements, two over voltage elements, one under frequency element, one over frequency element, one omopolar sequence over voltage element, one negative sequence over voltage element, one positive sequence under voltage element, time tagged multiple event recording, oscillographic wave form capture, Modbus RTU / IEC870-5-103, Display LCD 16 (2x8) characters, communication Protocol. 4 mm. safety terminals and 2 mm. terminals included on the front panel for the electrical connection. DL 1017R RESISTIVE LOAD It must consist in a single or three-phase resistive step-variable load. Housed in a metallic box. MECHANICAL FEATURES The load shall be composed of a rugged metal structure and of a front metal panel. On the front panel all the controls, the protection, the output terminals and a clear synoptic diagram, shall be collected. ELECTRIC FEATURES The load shall be composed of resistances, with possibility of star, delta and parallel connection, controlled by three switches. This item must be provided also with fuses protection. As a function of the switch positions, there shall be the following phase values: Position Resistance Max power per phase 1 1050 Ohm 46 W 2 750 Ohm 65 W 3 435 Ohm 110 W 4 300 Ohm 160 W 5 213 Ohm 230 W 6 150 Ohm 330 W 7 123 Ohm 400 W Maximum power in single or three phase connection must be 1200 W. Rated voltage in star connection must be 380 V, in D connection must be 220V, in single-phase must be 220V. It must be supplied with manual in English language.Dimensions (W x H): 436 x 174 mm DL 2108T02 POWER CIRCUIT BREAKER Code Specifications Three-phase power circuit breaker with normally closed auxiliary contact. • Contact load capability: 400 Vac, 3 A • Supply voltage: single-phase from mains The item must include two light push buttons (one red and one green) and must have insulated front panel. DL 2100-3M-AS FRAME Metal frame with three levels for fitting the modules of the laboratory.
