E+文摘（INSPEC篇）

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1	A convergent optimization method using pattern search algorithms with adaptive precision simulation(ei-11)
new2	EnergyPlus: new, capable, and linked
new3出处不同	EnergyPlus: new, capable, and linked
4	Analytical and comparative testing of EnergyPlus using IEA HVAC BESTEST E100-E200 test suite（EI-2）
5	Development of a thermal energy storage model for EnergyPlus（EI-3）
6	Energy consumption and comfort analysis for different low-energy cooling systems in a mild climate（EI-8）
7（EI-9）	Applying the building energy simulation test (BESTEST) diagnostic method to verification of space conditioning equipment models used in whole-building energy simulation programs
8	EnergyPlus: creating a new-generation building energy simulation program（web of proceeding 8）

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inspecAccession Number: 8325016
YK/t3]v$D9s#]#D f0Document type: Journal Paper
rd?oZ&Q0Title: A convergent optimization method using pattern search algorithms with adaptive precision simulation
;GI m'^t0Author(s): Wetter, M.; Polak, E.绿色建筑博客k_)htwu*w s-k(P_
Source: Building Services Engineering Research & Technology vol.25, no.4 : 327-38, 2004绿色建筑博客K7Z2?A,u\!m:V~
Language: English
Y;@5W&R"vQf0Treatment: Practical, Theoretical or Mathematical
.hwg3g N4p&n$_aU-s B0Abstract: Thermal building simulation programs, such as EnergyPlus, compute numerical approximations to solutions of systems of differential algebraic equations. We show that the exact solutions of these systems are usually smooth in the building design parameters, but that the numerical approximations are usually discontinuous due to adaptive solvers and finite precision computations. If such approximate solutions are used in conjunction with optimization algorithms that depend on smoothness of the cost function, one needs to compute high-precision solutions, which can be prohibitively expensive if used for all iterations. For such situations, we have developed an adaptive simulation-precision control algorithm that can be used in conjunction with a family of derivative free optimization algorithms. We present the main ingredients of the composite algorithms, we prove that the resulting composite algorithms construct sequences with stationary accumulation points, and we show by numerical experiments that using coarse approximations in the early iterations can significantly reduce computation time.绿色建筑博客kPv6@RS~n.z$N9}
Controlled Indexing: civil engineering computing; convergence; differential algebraic equations; numerical analysis; optimisation绿色建筑博客yf-P8c4xy:c"UT
Uncontrolled Indexing: convergent optimization method; pattern search algorithms; adaptive precision simulation; thermal building simulation; EnergyPlus; numerical approximation; differential algebraic equations; building design parameters; finite precision computation; optimization algorithms; composite algorithms
fw3oDVC+n0Classification Code(s):
;am?L M?g0C7440 Civil and mechanical engineering computing绿色建筑博客yi*FE${5Y~2SRY
C1180 Optimisation techniques绿色建筑博客[3b2K hb:?
C1110 Algebra
,Oc(\\#\0C4170 Differential equations (numerical analysis)
6MHd0m7C0绿色建筑博客YsT9I3qD&Jr
Author Address: Wetter, M.; Building Technol. Dept., Lawrence Livermore Nat. Lab., Berkeley, CA, USA绿色建筑博客qoOQ.G,MV1|
Number of References: 20绿色建筑博客X7@-qy9t$M%J2{6O_
Abstract Number: C2005-05-7440-001绿色建筑博客&z R+iLm%w2d
CODEN: PCIAFM
bFHO\2?-U.~0ISSN: 0143-6244
V A#xd#g0SICI: 0143-6244(2004)25:4L.327:COMU;1-G
&H@]7?e T!s a0DOI: 10.1191/0143624404bt097oa
3t^/A+Xt0文摘：绿色建筑博客LV2aw4M!^^L
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Accession Number: 8319237绿色建筑博客j,G:Aa&e+q2?
Document type: Journal Paper绿色建筑博客dX {B9p6V__"z
Title: EnergyPlus: new, capable, and linked绿色建筑博客SK&N"u^
Author(s): Crawley, D.B.; Lawrie, L.K.; Pedersen, C.O.; Winkelmann, F.C.; Witte, M.J.; Strand, R.K.; Liesen, R.J.; Buhl, W.F.; Yu Joe Huang; Henninger, R.H.; Glazer, J.; Fisher, D.E.; Shirey III, D.B.; Griffith, B.T.; Ellis, P.G.; Lixing Gu绿色建筑博客-W,{Q0\\#?L*x7b
Source: Journal of Architectural and Planning Research vol.21, no.4 : 292-302, Winter 2004
x7z~PV0g#UX0Language: English绿色建筑博客)E{ L\%l ]{
Treatment: Practical绿色建筑博客NB&plf,N"ZN
Abstract: A new building energy simulation program, known as EnergyPlus, was first released in April 2001. EnergyPlus builds on the capabilities and features of BLAST and DOE-2 and includes many simulation features, such as variable time steps, configurable modular systems that are integrated with a heat balance-based zone simulation, and input and output data structures tailored to facilitate third party module and interface development - features that have not been available together in a mainstream building energy simulation program. Other simulation capabilities include three thermal comfort models, extensive day lighting and advanced fenestration capabilities, multi-zone airflow modeling, more robust HVAC equipment models, more flexible system modeling, and photovoltaic simulation. Currently, more than 10 private sector companies have stated their intentions to create user interfaces for EnergyPlus. Since EnergyPlus was released in April 2001, more than 20,000 copies have been downloaded, with users in more than 90 countries.
v x1W]9O;`4Gx*|4`:z/U0Controlled Indexing: building management systems; civil engineering computing; energy management systems; HVAC
3jy-\P~7c0Uncontrolled Indexing: building energy simulation program; configurable modular system; variable time step; thermal comfort model; advanced fenestration capability; multizone airflow modeling; HVAC equipment model
!M1MPxmV8f0Classification Code(s):
w!`6g-u;zU;Oh/^0B8110B Power system management, operation and economics绿色建筑博客q uWmHL(]W1i
C7440 Civil and mechanical engineering computing
0\ m;m~*t^GP-S0C7410B Power engineering computing
Mi5a.P8G o0E2120 Heat and thermodynamic process (mechanical engineering)
hn!h,Ui1ws0E3030 Construction industry绿色建筑博客6MSt{h,~p1~
E2110 Mechanical structures绿色建筑博客~a%PxC(Uc7GkV
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Author Address: Crawley, D.B.; Office of Building Technol., U.S. Dept. of Energy, Washington, DC, USA绿色建筑博客'y+M E+Vrqn`?
Number of References: 19
~@Hy oH&k0Abstract Number: B2005-04-8110B-090; C2005-04-7440-169
8t6G-n;u_.Hls?{0CODEN: JAPRER绿色建筑博客6i L,w ad
ISSN: 0738-0895绿色建筑博客7[!Ji"Yp'WC
SICI: 0738-0895(200424)21:4L.292:ECL;1-9
q;vKj!mZ!~H0文摘:
E.}mGu4C8E)l+k0E+：新一代，有能力和可连接
pDFf(~P E0摘要：
u d"F/ZY8jp0新一代建筑能耗软件，E+，20014月第一次发布。E+建立在blast和DOE-2能力和特点上，包含：像可变时间步、用户可配置模型系统（集成了热和质平衡平衡基础的区域模拟），输入输出的数据结构可以很容易更改以适应第三方模型和界面的开发，很多特点都是主流能耗软件不具备的。其他模拟能力包括：三个舒适性模型，更灵活的系统建模，还有光电模拟。现在，多于10个私人公司已经声称他们正在创造E+的用户界面。自从E+2001年4月发布，超过20000个下载，全球用户遍布90多个国家。绿色建筑博客xV1NH!H1p

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Accession Number: 8319237

Dgt]2] jlH0Document type: Journal Paper
fbGH+? HbLf0Title: EnergyPlus: new, capable, and linked绿色建筑博客
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Author(s): Crawley, D.B.; Lawrie, L.K.; Pedersen, C.O.; Winkelmann, F.C.; Witte, M.J.; Strand, R.K.; Liesen, R.J.; Buhl, W.F.; Yu Joe Huang; Henninger, R.H.; Glazer, J.; Fisher, D.E.; Shirey III, D.B.; Griffith, B.T.; Ellis, P.G.; Lixing Gu
O R S-lO9qo5HWF0Source: Journal of Architectural and Planning Research vol.21, no.4 : 292-302, Winter 2004
4ZUD.U u1Wp0`0Language: English
^!b1h"R*F(HRU0Treatment: Practical
G$vnRV%];b1I0Abstract: A new building energy simulation program, known as EnergyPlus, was first released in April 2001. EnergyPlus builds on the capabilities and features of BLAST and DOE-2 and includes many simulation features, such as variable time steps, configurable modular systems that are integrated with a heat balance-based zone simulation, and input and output data structures tailored to facilitate third party module and interface development - features that have not been available together in a mainstream building energy simulation program. Other simulation capabilities include three thermal comfort models, extensive day lighting and advanced fenestration capabilities, multi-zone airflow modeling, more robust HVAC equipment models, more flexible system modeling, and photovoltaic simulation. Currently, more than 10 private sector companies have stated their intentions to create user interfaces for EnergyPlus. Since EnergyPlus was released in April 2001, more than 20,000 copies have been downloaded, with users in more than 90 countries.绿色建筑博客C/ns|#t6\1zs`
Controlled Indexing: building management systems; civil engineering computing; energy management systems; HVAC绿色建筑博客+|.r%j'R*G@3jo
Uncontrolled Indexing: building energy simulation program; configurable modular system; variable time step; thermal comfort model; advanced fenestration capability; multizone airflow modeling; HVAC equipment model
JF @l j)Q0Classification Code(s):绿色建筑博客o9PjQTet
B8110B Power system management, operation and economics
o^m@|8^@0C7440 Civil and mechanical engineering computing
vu&j-m&o[;k0C7410B Power engineering computing
;DxB!x)p1a l0E2120 Heat and thermodynamic process (mechanical engineering)绿色建筑博客N!`W5X7D:M*b
E3030 Construction industry绿色建筑博客B:w6d {}
E2110 Mechanical structures绿色建筑博客f(Q[&vxo{

_E\~]L7VZ0Author Address: Crawley, D.B.; Office of Building Technol., U.S. Dept. of Energy, Washington, DC, USA
%Dt#NZq+C.Dp0Number of References: 19
zT!cZ9J FbG&a0Abstract Number: B2005-04-8110B-090; C2005-04-7440-169
.pl}v(npC0CODEN: JAPRER绿色建筑博客
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ISSN: 0738-0895绿色建筑博客-|m5tt&Gg:d
SICI: 0738-0895(200424)21:4L.292:ECL;1-9
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0gzT0d}hmE*i x0Accession Number: 8193427绿色建筑博客 V uWZbEmA)M5[
Document type: Journal Paper
.j@QRg z+R0Title: Analytical and comparative testing of EnergyPlus using IEA HVAC BESTEST E100-E200 test suite绿色建筑博客A?:q:d?
Author(s): Henninger, R.H.; Witte, M.J.; Crawley, D.B.
;dZj%Up7N0AD0Source: Energy and Buildings vol.36, no.8 : 855-63, Aug. 2004
6y'JS,h5h,L0Language: English绿色建筑博客/b*RQ]*Eu^C
Treatment: Theoretical or Mathematical
W1I*s([5T e0Abstract: The EnergyPlus building energy simulation software has been tested using the IEA HVAC BESTEST E100-E200 series of tests. The volume 1 final report for the International Energy Agency (IEA) solar heating and cooling programme task 22 building energy simulation test and diagnostic method for heating, ventilating, and air conditioning equipment models (HVAC BESTEST) was recently published in January 2002. HVAC BESTEST is a series of steady-state tests for a single-zone DX cooling system. Cases range from dry to wet coil, low to high part load, and low to high temperatures. This published test suite includes three sets of analytical solutions and results from several other simulation programs for comparison. This test suite was initially used to test EnergyPlus beginning with beta versions prior to its official public release, and it is also applied as an ongoing quality assurance test. The application of these tests proved to be very useful in several ways: revealed input model shortcomings, which resulted in new user inputs being added; revealed reporting errors which were fixed; revealed algorithmic errors which were fixed; revealed algorithmic shortcomings which were improved or eliminated through the use of more rigorous calculations for certain components; in later versions, caught newly introduced bugs before public release of updates. Overall, the application of this test suite has been extremely useful in debugging and verifying the DX cooling algorithms in EnergyPlus. This paper summarizes the difficulties encountered and the benefits gained in applying the tests.绿色建筑博客 f7F'[h%|{
Controlled Indexing: building management systems; HVAC; power engineering computing; program verification; solar heating; space cooling
1K!Y'Q*ic0Uncontrolled Indexing: EnergyPlus; heating ventilation and air conditioning; HVAC system; building energy simulation software; solar heating; cooling program; ventilation; air conditioning; single-zone DX cooling system; software validation; international energy agency; steady-state test; software debugging
z }"RyaT[0Classification Code(s):
4X1[g?:A$k0B8550 Air conditioning绿色建筑博客m-D Auz/M.Ka
C7410B Power engineering computing绿色建筑博客3x-Ik2k/_ N8ENU4|BG
C3365 Automated buildings
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TH&d-C0绿色建筑博客EQ%m)U Q2r
Author Address: Henninger, R.H.; Witte, M.J.; GARD Analytics Inc., Illinois, IL, USA绿色建筑博客2g/@IRc*VQ{
Number of References: 4
x'k~v@0Abstract Number: B2005-01-8550-007; C2005-01-7410B-142
a8WH;~LOUo0CODEN: ENEBDR
,T})gi }7L:}Y%]0ISSN: 0378-7788
'ur@}%W6F"YD:f0U.S. Copyright Clearance Center Code: 0378-7788/04/$30.00绿色建筑博客+RF8@:?]:s
SICI: 0378-7788(200408)36:8L.855:ACTE;1-B
&e]*{^,J}0DOI: 10.1016/j.enbuild.2004.01.025
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+M4H.N$ux3~0绿色建筑博客r\'Kk9g*H@"T-g]
Accession Number: 8193424
BJz0Z.zCq-N0Document type: Journal Paper绿色建筑博客1xI(o#fO(QG'y
Title: Development of a thermal energy storage model for EnergyPlus绿色建筑博客$_ba4^#qi(n*fG]&I
Author(s): Ihm, P.; Krarti, M.; Henze, G.P.
@8{SL'My2U9wp [0Source: Energy and Buildings vol.36, no.8 : 807-14, Aug. 2004绿色建筑博客[EZ
Language: English绿色建筑博客"tbn1[Hl+J
Treatment: Practical, Theoretical or Mathematical绿色建筑博客U/p4d{/A;]&`
Abstract: A module for ice-based thermal energy storage (TES) systems has been developed and integrated within EnergyPlus. The TES module uses building load and system thermodynamics (BLAST) models for two direct ice systems (ice-on-coil external melt and ice harvester) and one indirect ice system (ice-on-coil internal melt). The TES systems are integrated as part of the EnergyPlus cooling plant components and are able to operate for any charge/discharge rates provided as input data. In this paper, the structure of the TES module as implemented in EnergyPlus is described. In addition, typical input-output variables from the added TES module are illustrated. Moreover, the operation of the TES systems is discussed for various conventional control strategies.
y']*w(iM!? ]1p,g0Controlled Indexing: cost reduction; demand side management; ice; space cooling; thermal energy storage; thermodynamics
-\ o3ccY3s]B8Q0Uncontrolled Indexing: ice based thermal energy storage; EnergyPlus; thermodynamic system; ice-on-coil melt; ice harvester; indirect ice system; cooling plant component; building load
U2g:]8g[]nn0Classification Code(s):绿色建筑博客J-qW$Ttld1}vz0`
B8550 Air conditioning
N4cJ8{-ox^0B8110B Power system management, operation and economic绿色建筑博客 Kp"v'}3D,_G/v
绿色建筑博客/|,Gr3E(y

iFJ%F8N0绿色建筑博客L h9teFg,p
Author Address: Ihm, P.; Krarti, M.; Civil, Environ. & Archit. Eng., Colorado Univ., Boulder, CO, USA绿色建筑博客-H.Z2@-?.B(E(N0_-y
Number of References: 9
$|R3Qg%[0`H[ d$fp0Abstract Number: B2005-01-8550-006绿色建筑博客4hd#a^/H8n6@
CODEN: ENEBDR
/f4d/O[rwr5H0ISSN: 0378-7788
2JU5Oo*~0U.S. Copyright Clearance Center Code: 0378-7788/04/$30.00绿色建筑博客!R9a]C/S&hd"X-g
SICI: 0378-7788(200408)36:8L.807TES;1-F绿色建筑博客%k&| _@\*@q
DOI: 10.1016/j.enbuild.2004.01.021绿色建筑博客 ~Ye)NisZ2vGk

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#u9F;Xs$Q2u+lLQ&O0Accession Number: 7841685
`~9hZ5g?0Document type: Journal Paper绿色建筑博客
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Title: Energy consumption and comfort analysis for different low-energy cooling systems in a mild climate
bH,@1JA|0Author(s): Olsen, E.L.; Qinyan Chen
K_evR`vK0Source: Energy and Buildings vol.35, no.6 : 561-71, July 2003绿色建筑博客P x-V}+k{!}
Language: English

y1l E~F0Treatment: Experimental绿色建筑博客V/D@Z GF
Abstract: The mild UK climate makes many low-energy cooling systems both technologically and economically feasible. In this study, EnergyPlus, the newest US energy simulation program, is used to evaluate the potential energy savings of several different systems for a recently built building outside of London, UK. Results from validation studies are briefly presented with the conclusion that EnergyPlus provides sufficient accuracy for most energy simulation applications. Systems evaluated include chilled ceilings, displacement ventilation, natural ventilation, night cooling, and a traditional VAV system. Unusual features of the building model are presented. Results show that systems that maximize free cooling from outside air have the best energy performance, and that natural ventilation alone cannot provide year-round comfort in the building studied, but would be effective as part of a hybrid system.绿色建筑博客xd.JKp!PH
Controlled Indexing: energy conservation; office environment; power consumption; space cooling; ventilation绿色建筑博客e_VpJ2J
Uncontrolled Indexing: low-energy cooling systems; mild climate; energy consumption; comfort analysis; EnergyPlus simulation program; potential energy savings; chilled ceilings; displacement ventilation; natural ventilation; night cooling; traditional VAV system; building model; hybrid system; office buildings绿色建筑博客sy-j6r7X2C8vL:g4K*W?C~
Classification Code(s):
A0q,m!^VOf0B8550 Air conditioning
0Zqjuq
Y
Z7]{I0B8215 Energy conservation
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[|1A\X0Author Address: Olsen, E.L.; Building Technol. Program, MIT, Cambridge, MA, USA绿色建筑博客+CC J;Vy!~W;a3v
Number of References: 17
Gd;}~ui'pM;@0Abstract Number: B2004-03-8550-001绿色建筑博客&D(J7Gw'K8p
CODEN: ENEBDR
N8V&eFe8M`&M(R }-r0ISSN: 0378-7788
*t8m#D4CdLv&w`4V0U.S. Copyright Clearance Center Code: 0378-7788/03/$30.00
H6}(lo-T*d,E@-Sn+U0SICI: 0378-7788(200307)35:6L.561:ECCA;1-9
,GkP)}-D0Document Number: S0378-7788(02)00164-0
}RS5@#WX&y0绿色建筑博客/Q/|r[}'~0?X@
EI-8绿色建筑博客~6LSJ|&@E&`-?
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绿色建筑博客"ZOrfN;TD
Accession Number: 7518525
$Q/VG)xMc%ol!Vz,_0Document type: Journal Paper绿色建筑博客eSx|0A%BTe3yAK
Title: Applying the building energy simulation test (BESTEST) diagnostic method to verification of space conditioning equipment models used in whole-building energy simulation programs
Q8}-} n1{4r(z%PI#c0Author(s): Neymark, J.; Judkoff, R.; Knabe, G.; Le, H.-T.; Durig, M.; Glass, A.; Zweifel, G.绿色建筑博客N6bD[K5s)R8r
Source: Energy and Buildings vol.34, no.9 : 917-31, Oct. 2002
E/E%H_ ]pS0Language: English
e7?8au.o2Ze$V0Treatment: Application, Practical, Theoretical or Mathematical
$n+G;H|i/g7\#PW:L0Abstract: Validation of building energy simulation programs consists of a combination of empirical validation, analytical verification, and comparative analysis techniques. An analytical verification and comparative diagnostic procedure was developed to test the ability of whole-building simulation programs to model the performance of unitary space-cooling equipment that is typically modeled using manufacturer design data presented as empirically derived performance maps. This procedure is based on the International Energy Agency (IEA) building energy simulation test (BESTEST) diagnostic method and systematically tests whole-building energy simulation software by comparing results from such software to analytical solutions that were developed for the test cases. Field trials of the new procedure were conducted by researchers from nations participating in the IEA Solar Heating and Cooling (SHC) Programme Task 22, using a number of detailed hourly simulation programs from Europe and the US, including: CA-SIS, CLIM2000, ENERGYPLUS, PROMETHEUS, TRNSYSTUD, and two versions of DOE-2.1E. This article also includes discussion about simulation validation methodologies.
l$H{[zb2L}OW0Controlled Indexing: digital simulation; HVAC; power engineering computing; program testing; space cooling
]BTaB'c2K$U0Uncontrolled Indexing: building energy simulation test diagnostic method; BESTEST diagnostic method; space conditioning equipment models; whole-building energy simulation programs; unitary space-cooling equipment; International Energy Agency; simulation software testing; IEA Solar Heating and Cooling Programme Task 22; hourly simulation programs; CA-SIS; CLIM2000; ENERGYPLUS; PROMETHEUS; TRNSY-STUD; DOE-2.IE
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S/O/d3qbAIQ0Classification Code(s):
,Y5@4k9b-Lth*yU0B8540E Space heating
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J;W'n {0B8550 Air conditioning绿色建筑博客u6{2CEMF
C7410B Power engineering computing
zk.E_B#F*Q5B0C6150G Diagnostic, testing, debugging and evaluating systems
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Author Address: Neymark, J.; J. Neymark & Associates, Colorado Springs, CO, USA
(k#ah-w#HZD/R0Number of References: 48绿色建筑博客 ZL&gpD*p5L/bK{,?
Abstract Number: B2003-03-8540E-007; C2003-03-7410B-047
:T`+wJBO_6W5I0CODEN: ENEBDR
g2q O9oM,y"s6k0ISSN: 0378-7788绿色建筑博客 vtP'o1c+eTe
U.S. Copyright Clearance Center Code: 0378-7788/02/$22.00绿色建筑博客{F)z\!C x
SICI: 0378-7788(200210)34:9L.917:ABES;1-V
F@5X4B)m.Rq0Document Number: S0378-7788(02)00072-5
L-EbM&X0Y0绿色建筑博客E1Vh}"}u%f,@

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"jk0]\1Yn{t+s6EH0Accession Number: 6986861
5U/h+V*UQS.N#A2[5Y0Document type: Journal Paper
+y:Yw+nzW.N9Oa0Title: EnergyPlus: creating a new-generation building energy simulation program
+`/g9@9S4g(GSlt#a0Author(s): Crawley, D.B.; Lawrie, L.K.; Winklemann, F.C.; Buhl, W.F.; Huang, Y.J.; Pedersen, C.O.; Strand, R.K.; Liesen, R.J.; Fisher, D.E.; Witte, M.J.; Glazer, J.绿色建筑博客M:ckQ p4B^3X_
Source: Energy and Buildings vol.33, no.4 : 319-31, April 2001
C9y)}"Ral1W0Language: English绿色建筑博客 i)BBs?S1aO
Treatment: Practical
%iLp\+k0Abstract: Many of the popular building energy simulation programs around the world are reaching maturity-some use simulation methods (and even code) that originated in the 1960s. For more than two decades, the US government supported development of two hourly building energy simulation programs, BLAST and DOE-2, Designed in the days of mainframe computers, expanding their capabilities further has become difficult, time-consuming, and expensive. At the same time, the 30 years have seen significant advances in analysis and computational methods and power-providing an opportunity for significant improvement in these tools. In 1996, a US federal agency began developing a new building energy simulation tool, EnergyPlus, building on development experience with two existing programs: DOE-2 and BLAST. EnergyPlus includes a number of innovative simulation features-such as variable time steps, user-configurable modular systems that are integrated with a heat and mass balance-based zone simulation-and input and output data structures tailored to facilitate third party module and interface development. Other planned simulation capabilities include multizone airflow, and electric power and solar thermal and photovoltaic simulation. Beta testing of EnergyPlus began in late 1999 and the first release is scheduled for early 2001.
|| n9lzJ$Z9d0Controlled Indexing: building management systems; engineering computing; power consumption; software packages绿色建筑博客vIS`J2G#sVAxC
Uncontrolled Indexing: EnergyPlus new-generation building energy simulation program; computational methods; computational power; US government; variable time steps; user-configurable modular systems; heat balance-based zone simulation; mass balance-based zone simulation; data structures; beta testing绿色建筑博客Cz#I:uR5pp
Classification Code(s):绿色建筑博客2^
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B8500 Power utilisation绿色建筑博客+c1J(^It
C7400 Engineering computing绿色建筑博客Hf#d'~2OdL7s]
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Author Address: Crawley, D.B.; US Dept. of Energy, Washington, DC, USA绿色建筑博客UAoZ d
Number of References: 21绿色建筑博客MeX8X"u*MNi
Abstract Number: B2001-09-8500-002; C2001-09-7400-005绿色建筑博客0kKFc%HRC
CODEN: ENEBDR
H'N%@2Q%VQt@&y0ISSN: 0378-7788
R2UF8[.vWE0U.S. Copyright Clearance Center Code: 0378-7788/2001/$20.00
T7KI|+Pp-\8@F0SICI: 0378-7788(200104)33:4L.319:ECGB;1-2绿色建筑博客n$[VS2Ml6L'E-e
Document Number: S0378-7788(00)00114-6绿色建筑博客1|4H*]k2M#o.y
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