Asia-Pacific Power and Energy Engineering Conf. (APPEEC2011) EI&ISTP Indexed 9 d. l& e) _1 \! h4 g. v: I) |/ s, z6 M . K1 ~; z: M' B3 T g% \9 Y================================================================== * z1 y2 X# U3 ?# @# X+ {; tThe 3rd Asia-Pacific Power and Energy Engineering Conference (APPEEC2011) ( \9 Q+ _ ^1 I. T+ D/ \第三届亚太电力与能源工程国际会议 5 q& Q! G8 |2 z L3 p) ~Submission Deadline: Sept. 24, 2010 , O+ [: Y# b: J X' N- _$ Dwww .appeecconf.org/2011 4 J+ M5 r$ P. g4 B5 X3 @Wuhan, China March 25-28, 2011 6 c q& M$ }. H5 p================================================================== - j Y! v. z- CThe 3rd Asia-Pacific Power and Energy Engineering Conference (APPEEC2011) will be & A0 @$ E. D/ U; Y3 a5 [7 O+ p
7 Z6 Y9 v1 ^8 K% m
held from March 25 to 28, 2011 in Wuhan, China. The conference proceedings will be $ P% o! `3 r) u( s/ Z
9 E; q- e+ {' l* Q( bpublished X4 L0 v8 U" ]$ J9 w' _by IEEE, all papers accepted will be indexed by Ei Compendex and ISTP. $ l8 Y. K6 |. q- m9 x1 g j# E ) V9 z, I3 G: UThe technical areas to be covered in this conference include: . g _ y$ _+ z0 L8 [6 J
Power Generation - Conventional and Renewable # h5 v" I1 H" [- E0 Z# w6 c
Hydropower technologies and applications 8 `1 c/ O" S( v F7 d0 i0 EThermal power technologies and applications $ ]; U8 n* w9 ]9 g3 j
Safe nuclear energy generation and utilization - {. _$ d( C! e! |, t, d5 ?Wind power generation and utilization / `2 b% `0 u8 b5 U
Bio-energy technologies, process and utilization 6 s3 `( P. A6 LNew technologies and design for energy efficiency 9 s* \, Z: J- }
New technologies for minimizing CO2 generation 0 A- i9 [& T5 c$ M
Environmental-friendly technologies for power generation 9 _ {3 K' ]& |4 L1 w8 E% b% S5 dGeothermal and tidal wave energy ! O7 m( p/ \* `) L
Photovoltaic for solar power applications 7 h4 T* h! t# K. `$ S; ^% bWaste products as fuel 7 e1 q! @/ f. VOther sustainable energy ! P) ?% W0 X3 b. O' \2 c( o! F4 D 0 T' y, V6 n- U( OPower System Management T f) i* G' g o6 }. _' bPower system management technologies ! r1 V% @& z9 U5 B4 r& K
Integrated substation automation technologies 1 }/ H: y8 U2 m1 ?" T5 G' q" B# |( J
Power system monitoring and mitigation technologies { U' V! I! U u- ^- c. C" R
Online monitoring and fault diagnosis system ) h9 ^, @/ O; ?6 y4 HControl strategies for modern power system stability * Q Y4 r, Q! n$ y: ~" p
Modeling and simulation of large power systems * g+ Q4 j' m2 `+ T' E6 \5 HApplication of wide area measurement system ; }. r0 T' x a, k
Power system analysis and optimization 8 n' f0 g! P" ]) E ]& Q
Load modeling, estimation and forecast 8 ^+ y' `9 y* f" b, t
Power system planning and operation : n/ ?5 a$ c% A+ z8 y% h5 x7 R' t $ t4 S! p/ u- v z! @Power Transmission and Distribution ; R) ^ |% g; CUltra High Voltage (UHV) technologies 5 K! a. Y3 h# o: kHVDC and flexible AC transmission system + s9 r% G ~8 }# r/ S
Over-voltage, lightning protection and grounding , t. D* j% |8 f. g0 _8 ^
Electromagnetic transient in high voltage power systems ' r3 ^: V% r0 F# K8 R1 G
Insulation condition monitoring in power systems / a* a; t5 e. T" T% t3 E. D
Advanced distribution and SCADA technologies ' ?0 [& b+ k' N; P gElectromagnetic compatibility in power systems ; E; `3 m9 I9 l/ _
Plasma physics and the pulsed power technology - g* i1 D# U8 ?
Electromagnetic analysis in power systems - ~& ]+ P/ I! \ s m6 ^ ~6 d+ G8 {- C
G4 M# P) {9 h5 n0 d
Smart Grid Technologies 9 G/ q1 D9 m3 `/ Y8 P7 K3 }% u
Modeling of Grid environments 9 t! k j; C4 g- i1 j: A
Agent-based mechanisms for Grid markets / g7 f; Z! d6 A; _
Resource allocation in Grid scenarios / k( `7 z# O5 i2 @Automated negotiation for Grid resource allocation ' [6 R: x5 N/ D" G6 J4 D
Agent-based simulation of Grid environments and markets ; o" ?: A+ J" {. I$ |9 g3 x, A
Agent-based Computational Economics for Grid ! Q- C" H& p0 N- x! r! [$ W
Engineering of Grid markets and Grid architectures 5 `. y6 o/ e. j& FTechnical research on future application domains" l% Y- \" U7 x$ d2 p& a