01-gen sinkron rev.ppt
TRANSCRIPT
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RE1345 RE1345
KONVERSI TENAGA LISTRIK II KONVERSI TENAGA LISTRIK II
Vita LystianingrumVita Lystianingrum
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RE1345 KONVERSI TENAGA LISTRIK IIRE1345 KONVERSI TENAGA LISTRIK II SILABUSSILABUS
RE1345 Konversi Tenaga Listrik IIElectrical Power Conversion II
Semester IV 2SKS
Tujuan:Memahami tentang dasar-dasar mesin listrik arus bolak-balik, khususnya: generator serempak, motor serempak, motor tak serempak.
Prasyarat:Konversi Tenaga Listrik I
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RE1345 RE1345 KONVERSI TENAGA LISTRIK IIKONVERSI TENAGA LISTRIK II
1: Klasifikasi mesin-mesin listrik dan konstruksi 2: Generator sinkron: proses terbangkitnya EMF dan macam-macam
generator sinkron 3: Generator sinkron: berbeban, kerugian tegangan, diagram vektor
untuk pf. lagging, pf. leading 4: Generator sinkron: menentukan voltage regulator dengan metode
EMF dan karakteristik 5: Generator sinkron: kerja paralel 6:7: Motor sinkron: metode start dan pengaruh perubahan arus eksitasi 8: Motor sinkron: torque dan contoh soal 9 & 10: UTS
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ReferencesReferences
1. Theraja, B. L., ‘Electrical Technology’, S. Chand & Company Ltd., 1978.
2. Karady, G., ‘Lecture Notes on Synchronous Generator’, www.eas.asu.edu/~karady/360_pp.html.
3. Zuhal
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• Motivasi, Tujuan:– Menambah wawasan?
• MAteri kuliah bisa didownload di: www.oc.its.ac.id
• Komposisi Nilai– Tugas 20 %– UTS 40 %– UAS 40 %
• Peraturan Kelas– Kelas dimulai jam 7.30
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Review KTL 1:Review KTL 1:DC MachinesDC Machines
• Generators convert mechanical energy to electric energy.
• Motors convert electric energy to mechanical energy.
• Faraday’s Law -> Dynamically & statically induced.
• The construction of motors and generators are similar.
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DC generatorDC generator
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DC generatorDC generator
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carbon brushes
DC Motor DC Motor PartsParts
Field magnet
stator
rotor
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AC Generators / AlternatorsAC Generators / Alternators• Same principles as DC generators ->
armature winding & magnetic field.• Armature winding -> stator
field winding -> rotor
**
MESIN SINKRON
• Stator
• Rotor kutub silindris (kec. Tinggi)
kutub salient / menojol (kec.Rendah)• Ada Kutub Luar dan Kutub Dalam Kebanyakan kutub dalam
Kutub Luar dan Kutub Dalam
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Why stationary armature?Why stationary armature?
• Without brush contact->The output current can be led directly from fixed terminals on the stator (armature windings) to the load circuit.
• Easier to insulate stationary armature winding for high AC voltages (may be as high as 30 kV or more)
• Sliding contacts i.e. slip-rings are transferred to the low-voltage, low-power DC field circuit-> easily insulated
• **Armature windings can be more easily braced to prevent any deformation produced by the mechanical stresses
Kenapa Kutub Dalam?• Tegangan yang dibangkitkan biasanya antara 18 kv
– 24 kv, maka tegangan ini tidak perlu dikeluarkan melalui cincin slip dan kontak geser tetapi dapat dikeluarkan langsung ke alat penghubung.
• Ada keuntungan mekanis, getaran lilitan jangkar berkurang dan gaya sentrifugal menjadi lebih baik
• Kumparan medan yang berputar dicatu dgn arus dc pd teg. 125, 250 atau 375 volt melalui cincin slip dan sikat, atau langsung dgn kabel antara medan dengan penyearah untk sistem eksitasi tanpa sikat.
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Stator Rotor
Connections
Bearing
Stator winding
Rotor winding
Housing ,cooling ducts
Shaft
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Stator• Laminated iron
core with slots• Steel Housing
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Stator details• Coils are placed in
slots
• Coil end windings are bent to form the armature winding.
Slots
Coil
End winding
Iron core
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http://thomasblairpe.com/PPE/lecture8.pdf
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??
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BSE “Teknik Pembangkit Tenaga Listrik”
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**2 kinds of rotor**2 kinds of rotor• Round rotor• Salient Rotor
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Round rotorRound rotor• Usually for high alternators
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Round rotor
Steel ring
DC current terminals
Wedges
Shaft
Rotor Kutub SilindrisPutaran Tinggi- Turbin Uap/Gas
BSE “Teknik Pembangkit Tenaga Listrik”
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Rotor Details
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Round rotor• The round rotor is used
for large high speed (3600rpm) machines.
• A forged iron core (not laminated,DC) is installed on the shaft.
• Slots are milled in the iron and insulated copper bars are placed in the slots.
• The slots are closed by wedges and re-enforced with steel rings.
Round rotor
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Round Rotor Machine• The stator is a ring
shaped laminated iron-core with slots.
• Three phase windings are placed in the slots.
• Round solid iron rotor with slots.
• A single winding is placed in the slots. Dc current is supplied through slip rings.
Concept (two poles)
N S
A-B
+
A+
C+
C-
B-
A
B
CStator with laminated iron-core
Slots withwinding
Rotor with dcwinding
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Salient rotorSalient rotor• Usually for low- & medium-speed alternators
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Rotor Kutub Menonjol (Salient)Putaran Rendah-Turbin air, Mesin Disel
Rotor Kutub Menonjol (Salient)
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Salient Rotor Machine• The stator has a laminated
iron-core with slots and three phase windings placed in the slots.
• The rotor has salient poles excited by dc current.
• DC current is supplied to the rotor through slip-rings and brushes.
• Concept (two poles)
N
S
A+
B+
C+B-
A-
C-
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Construction
• The picture shows the laminated iron core and the slots (empty and with winding).
• The winding consists of copper bars insulated with mica and epoxy resin.
• The conductors are secured by steel wedges.
• In large machines, the stator is liquid cooled.
• The iron core is supported by a steel housing.
• Construction
empty slots
insulated winding
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Salient pole rotor construction
• The poles are bolted to the shaft.• Each pole has a DC winding.• The DC winding is connected to the slip-rings (not shown).• A DC source supplies the winding with DC through brushes
pressed into the slip ring. • A fan is installed on the shaft to assure air circulation and
effective cooling.
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SYNCHRONOUS MACHINESSYNCHRONOUS MACHINES
Construction• Low speed, large hydro-
generators may have more than one hundred poles.
-> relationship between speed & poles
• These generators are frequently mounted vertically.
• The picture shows a large, horizontally arranged machine.
• Exciter
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Exciter pada Generator AC Konvensional
• Arus dc diperoleh dari sebuah generator dc kecil - DC Exciter
Static Exciter Generator
• Exciternya tidak turut berputar, berupa penyearah
Brushless Generator
Brushless Generator
.menggunakan penyearah yg ikut berputar bersama dg rotor.
.Exciternya berupa generator ac kecil dgn kutub luar.
.Pada gen AC kecil: Kutubnya mendapatkan sumber dc seperti pd static exciter, sedang di rotornya timbul teg ac yang disearahkan dan langsung dimasukkan pada rotor generator utama. .Teg pd stator utama dipakai untuk beban dan sebagian kecil untuk eksitasi.
Brushless Generator
• Static exciter masih perlu sikat
• Brushless tidak, tapi menggunakan penyearah yg ikut berputar bersama dg rotor.
• Exciternya berupa generator ac kecil dgn kutub luar. • Kutubnya mendapatkan sumber dc seperti pd static
exciter, sedang di rotornya timbul teg ac yang disearahkan dan langsung dimasukkan pada rotor generator utama. Teg pd stator utama dipakai untuk beban dan sebagian kecil untuk eksitasi.
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• Thank You, see you next week
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• Different construction of synch. Gen & DC gen ->
• Which one precedes?
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