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web of proceedingTitle
1Parametric analysis of active and passive building thermal storage utilizationEI-14)
2Development of a thermal energy storage model for EnergyPlus(EI-3)
3Analytical and comparative testing of EnergyPlus using lEA HVAC BESTEST E100-E200 test suite(EI-2)
4Energyplus and its application in a BCHP system simulation(EI-6)
5The VAV HVAC system simulation using energyplus(EI-5)
6EI-9Applying the building energy simulation test (BESTEST) diagnostic method to verification of space conditioning equipment models used in whole-building energy simulation programs
new7Developing a new-generation building simulation tool in the United States
new8EnergyPlus: creating a new-generation building energy simulation program
new98重合Energyplus: The new generation energy simulation program beyond blast and DOE-2

zz&~@QLM(\[j0web of proceeding
0g}t Oj-wX\zQ0Document Type: Article绿色建筑博客`.A:G9v,|:ie
Language: English绿色建筑博客 c0k+f#NG-}b@4_J
Cited References: 38
6tbB!HV3B C l0Conference Information: International Solar Energy Conference
,j6?cI1A7U$|0Portland, OR, JUL 01-14, 2004
&iU4QM0H%]$O;vO0
w{0p aG*{1Y`0Abstract: Cooling of commercial buildings contributes significantly to the peak demand placed on an electrical utility grid. Time-of-use electricity rates encourage shifting of electrical loads to off-peak periods at night and on weekends. Buildings can respond to these pricing signals by shifting cooling-related thermal loads either by precooling the building's massive structure or by using active thermal energy storage systems such as ice storage. While these two thermal batteries have been engaged separately in the past, this paper investigates the merits of harnessing both storage media concurrently in the context of optimal control for a range of selected parameters. A parametric analysis was conducted utilizing an EnergyPlus-based simulation environment to assess the effects of building mass, electrical utility rates, season and location, economizer operation, central plant size, and thermal comfort. The findings reveal that the cooling-related on-peak electrical demand and utility cost of commercial buildings can be substantially reduced by harnessing both thermal storage inventories using optimal control for a wide range of conditions.
aP7_3B2Fv0Addresses: Zhou G (reprint author), Univ Colorado, Boulder, CO 80309 USA绿色建筑博客OIOM] J8P/S ]
Univ Colorado, Boulder, CO 80309 USA绿色建筑博客pa)INP"R
Univ Nebraska, Omaha, NE 68182 USA
nY%Rj6ql0Publisher: ASME-AMER SOC MECHANICAL ENG, THREE PARK AVE, NEW YORK, NY 10016-5990 USA绿色建筑博客R ERc;j _,D
Subject Category: ENGINEERING, MECHANICAL; ENERGY & FUELS绿色建筑博客8~Ro(p)O Qy
IDS Number: 905OI绿色建筑博客-P OJ;j'?
绿色建筑博客qvPGr'i i
ISSN: 0199-6231
L }Z3e4C0摘要:
E)T4VYX~l*J%F3n0EI-14绿色建筑博客!myobK]E3`"}7Wm
绿色建筑博客 t6V.|[k4L3cmD&@

D9Zw:]L.|f1U0Title: Development of a thermal energy storage model for EnergyPlus绿色建筑博客1z{v2@b E
Author(s): Ihm A, Krarti M, Henze GP绿色建筑博客&z?3a^ c J
Source: ENERGY AND BUILDINGS 36 (8): 807-814, AUG 2004
xiL\H8^f;y ~+v0Document Type: Article
A!y(a(Fp(L1v5vx0Language: English
f,Tk&mLS R:|0Cited References: 8绿色建筑博客"^~(hn1nG9a?#t
Conference Information: Conference of the International-Building-Performance-Simulation-Association绿色建筑博客/|&p;J Ly6C5~,F~5V
Eindhoven, NETHERLANDS, AUG 11-14, 2003绿色建筑博客y J,Kz3{ u
Int Building Performance Simulation Assoc
!X`c*XZEj/H0Abstract: 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. (C) 2004 Published by Elsevier B.V.绿色建筑博客 se0wWax
Author Keywords: EnergyPlus; thermal energy storage (TES) system
.u9rc?"^%j1Btk0Addresses: Krarti M (reprint author), Univ Colorado, Boulder, CO 80309 USA绿色建筑博客U0dDAxK3B!hg
Univ Colorado, Boulder, CO 80309 USA绿色建筑博客&J~ pQ,C5eqV.nQ/[
Univ Nebraska, Omaha, NE 68182 USA绿色建筑博客#H/Jf_t e
Publisher: ELSEVIER SCIENCE SA, PO BOX 564, 1001 LAUSANNE, SWITZERLAND
G,Ph'x0[ j0Subject Category: ENGINEERING, CIVIL; CONSTRUCTION & BUILDING TECHNOLOGY; ENERGY & FUELS绿色建筑博客,dUIp!h$?zv!k e9W
IDS Number: 842VV绿色建筑博客yx Q`4zL.jXq3?
绿色建筑博客cO;^x$F*E(hc
ISSN: 0378-7788
G&@ rQL;|*P0摘要:绿色建筑博客,N^\:G8O*}
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(n*{-RO/Y0绿色建筑博客-qN%JdN o?
Title: Analytical and comparative testing of EnergyPlus using lEA HVAC BESTEST E100-E200 test suite绿色建筑博客;s%{R c7]?
Author(s): Henninger RH, Witte MJ, Crawley DB
Z2cDpTL0Source: ENERGY AND BUILDINGS 36 (8): 855-863, AUG 2004
*X h:w(Tp`!t~0Document Type: Article绿色建筑博客S,n9cIr
Language: English绿色建筑博客:N j/t`,q4a.j1Up
Cited References: 3
r6M`L#k2GM0Conference Information: Conference of the International-Building-Performance-Simulation-Association绿色建筑博客/j9~+Nm7_1Q
Eindhoven, NETHERLANDS, AUG 11-14, 2003绿色建筑博客Q0qZ?%R0_:rn5mw
Int Building Performance Simulation Assoc绿色建筑博客*v+IG%u0Qo f UR
Abstract: 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.
"EO.@;J](@ZMV]u0This 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:绿色建筑博客S"o'{ Y9h?bN)a/m/B
绿色建筑博客5S9p]3vR4m~
revealed input model shortcomings, which resulted in new user inputs being added;
8E/iRQU#W8C2q0绿色建筑博客5a,pOu"Y^3|#G:F2J
revealed reporting errors which were fixed;.绿色建筑博客8EahI)V's(`d;C

P.\X k3g+}r)MLD0revealed algorithmic errors which were fixed;
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f#Zx_3s;b}f:Ow0revealed algorithmic shortcomings which were improved or eliminated through the use of more rigorous calculations for certain components;
8@ Sl0|V ^6jI;qG0
o/C1f?H+s-?m0]i0in later versions, caught newly introduced bugs before public release of updates.绿色建筑博客~+~fE,@
绿色建筑博客8b^a`p'y
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. (C) 2004 Elsevier B.V. All rights reserved.绿色建筑博客)b%b*P4[Sc
绿色建筑博客_ UM#x ]x7z0HO
Author Keywords: EnergyPlus; energy simulation; software validation; HVAC system
J.p\^&gq0Addresses: Henninger RH (reprint author), GARD Analyt Inc, 1028 Busse Highway, Park Ridge, IL 60068 USA绿色建筑博客~t3Mg]u oMl*P#X
GARD Analyt Inc, Park Ridge, IL 60068 USA
}:H-mEu AD}%rA0US DOE, Washington, DC 20585 USA绿色建筑博客 @h$]1IgE$i
Publisher: ELSEVIER SCIENCE SA, PO BOX 564, 1001 LAUSANNE, SWITZERLAND
`-j zP E3q!F9{Rn0Subject Category: ENGINEERING, CIVIL; CONSTRUCTION & BUILDING TECHNOLOGY; ENERGY & FUELS绿色建筑博客n` r \5j;YR
IDS Number: 842VV
O+| i,@3N9ym0
:VM+cL"m9l&I"g0ISSN: 0378-7788
1K4t v-VC,hP"B0摘要:
w `2DT(~ kzfx5H.?0EI-2绿色建筑博客)gr(Vb+d-f?
绿色建筑博客M \*JQw8X#d:yF
Title: Energyplus and its application in a BCHP system simulation
uDpM`.pzl)nV0Author(s): Pan Y, Wu G, Hartkopf V, Brahme R
)I(i6w5v?;i0Source: PROCEEDINGS OF THE 4TH INTERNATIONAL SYMPOSIUM ON HEATING, VENTILATING AND AIR CONDITIONING, VOLS 1 AND 2 : 716-723, 2003
s7p(| @l+C a0Document Type: Article绿色建筑博客b8[*BVSSg(n:M2dX:}
Language: English绿色建筑博客9x`x:]'\3t#Fu
Cited References: 11
X7M0un*Stn-xo)E0Conference Information: 4th International Symposium on Heating, Ventilating and Air Conditioning
/cH+J)@+xWLe0BEIJING, PEOPLES R CHINA, OCT 09-11, 2003
-j!e.G w1]*A0Tsinghua Univ, Dpet Bldg Sci, Sch Architecture; Natl Nat Sci Fdn China; Amer Soc Heating, Refrigerating & Air Conditioning Engineers; Chartered Inst Bldg Serv Engineers; Soc Heating, Air Conditioning & Sanitary Engineers Japan; Scandinavian Federat Heating; Federat European Heating & Air Conditioning Assoc; China Assoc Refrigerat; Chinese Architecture Assoc, Comm Heating, Ventilating & Air Conditioning; Beijing Assoc Refrigerat绿色建筑博客'e\ t dd(Bg$W EP
Abstract: The basic principles, features, and new functions of EnergyPlus-a new-generation building energy simulation program-are introduced firstly in the paper. Secondly, the application of EnergyPlus in a real building energy simulation is presented. It is a 6000 square meter high performance building, the "Building As Power Plant (BAPP)", which is to be built on the campus of Carnegie Mellon University (CMU), Pittsburgh, PA, USA. A building cooling heating and power (BCHP) system, including a Siemens Westinghouse 250-kW Solid Oxide Fuel Cell (SOFC) and absorption chillers, is going to be installed as the main building energy system. The simulation results of the annual energy consumption of the BAPP systems are demonstrated in the paper. In addition, performance and economic analyses are conducted on the BCHP system based on the simulation results. It is finally presented the challenges we have encountered in simulating the building energy systems using EnergyPlus.绿色建筑博客7D v.k SM-c
Author Keywords: EnergyPlus; BCHP; SOFC
SSK!ATM2i0Addresses: Pan Y (reprint author), Tongji Univ, Dept Fac Engn & Management, South Campus,67 Chifeng Rd, Shanghai 200092, Peoples R China
9YZ sP}Sm0Tongji Univ, Dept Fac Engn & Management, Shanghai 200092, Peoples R China
Pt~&qA]l`0Publisher: TSINGHUA UNIVERSITY PRESS, TSINGHUA UNIVERSITY HAIDIANQU, BEIJING 100084, PEOPLES R CHINA
0y#H] fS9_7|w0IDS Number: BY35C
1O)}Y c7R)k0绿色建筑博客;k4KH%kWY#~l4w
ISBN: 7-302-07326-0绿色建筑博客*oBkMN0@&c
摘要:绿色建筑博客G^2n }W:^z2[
E+及其在BCHP系统模拟中的应用
8ww.P-Dv*xW[0EI-6绿色建筑博客v%Z Uoo'o
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Title: The VAV HVAC system simulation using energyplus绿色建筑博客;yOg,["C p`
Author(s): Yasutomo T, Zheng MJ, Nakahara N绿色建筑博客y5wp S.pb1B
Source: PROCEEDINGS OF THE 4TH INTERNATIONAL SYMPOSIUM ON HEATING, VENTILATING AND AIR CONDITIONING, VOLS 1 AND 2 : 1100-1107, 2003
7S m6[ @g,qbh0Document Type: Article
\ b2Rd5Xt| H0Language: English
?XM _G0Cited References: 9
9Z;{-g)~Y9V#U rJQ0Conference Information: 4th International Symposium on Heating, Ventilating and Air Conditioning
'X?iB z t([5z;n!M0BEIJING, PEOPLES R CHINA, OCT 09-11, 2003
Y4`cIG Z7]g0Tsinghua Univ, Dpet Bldg Sci, Sch Architecture; Natl Nat Sci Fdn China; Amer Soc Heating, Refrigerating & Air Conditioning Engineers; Chartered Inst Bldg Serv Engineers; Soc Heating, Air Conditioning & Sanitary Engineers Japan; Scandinavian Federat Heating; Federat European Heating & Air Conditioning Assoc; China Assoc Refrigerat; Chinese Architecture Assoc, Comm Heating, Ventilating & Air Conditioning; Beijing Assoc Refrigerat
"Q&Z%II*a L)}1?w0Abstract: Although many simulation programs, e.g. HASP/ACSS/Japan, DOE2/USA and many others, have been developed and used for research, development and evaluation of HVAC systems, many of their structures are monolithic so that another style of simulation program having the flexibility and modularity such as TRNSYS and HVACSIM+ is becoming the new current of HVAC/building simulation tool. One of such simulation programs is a new building energy simulation program called EnergyPlus that was released in April, 20011), 2), 3). In the present paper, the authors simulate a certain VAV HVAC system, with a model of actual existing building, as an end user of EnergyPlus, evaluate its usability and discuss calculation results on some options such as changing set point temperatures of rooms and the delivery air and control schedules how they influence the energy consumption and the indoor environment, and then examine its applicability to Japanese HVAC engineering culture.绿色建筑博客 QN1dD#?Eg
Author Keywords: EnergyPlus; simulation; VAV HVAC system
KQAm@2dpJ0Addresses: Yasutomo T (reprint author), SANKO Air Conditioning Co Ltd, Res Lab, Nagoya, Aichi 4500003 Japan绿色建筑博客^Z/d U8iD%u M {
SANKO Air Conditioning Co Ltd, Res Lab, Nagoya, Aichi 4500003 Japan绿色建筑博客b FV'^|&xQ0DH1^
Publisher: TSINGHUA UNIVERSITY PRESS, TSINGHUA UNIVERSITY HAIDIANQU, BEIJING 100084, PEOPLES R CHINA
:i@4QX Vs }9[ C2\0IDS Number: BY35C
^(t#|3H!d&m{? R0绿色建筑博客EZ}:I$a)Ur;N
ISBN: 7-302-07326-0绿色建筑博客+RH+gh:C0A
摘要:
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4V qr uBx$JN0Title: Applying the building energy simulation test (BESTEST) diagnostic method to verification of space conditioning equipment models used in whole-building energy simulation programs
U'S.P6t'y$Z0Author(s): Neymark J, Judkoff R, Knabe G, Le HT, Durig M, Glass A, Zweifel G
e8l*f\C%FJ0Source: ENERGY AND BUILDINGS 34 (9): 917-931, OCT 2002绿色建筑博客4Vn/bawf~Hv
Document Type: Article绿色建筑博客$yd&z_ {
Language: English
:d1a!S5n"Xo&E1V0Cited References: 51绿色建筑博客?Y q;r\rW C2Y
Conference Information: 7th IBPSA International Conference绿色建筑博客4YNZ9RP
RIO DE JANEIRO, BRAZIL, 2001
vow!Y*\eY ~ {0IBPSA绿色建筑博客dDW)X2a1ht_U
Abstract: 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. Crown Copyright (C) 2002 Published by Elsevier Science B.V. All rights reserved.
| ~5BA;b{M0Author Keywords: BESTEST; building energy; simulation programs; HVAC; air conditioning; model validation; model verification绿色建筑博客1LT!bC!T[|| G
Addresses: Neymark J (reprint author), J Neymark & Associates, 2140 Ellis St, Golden, CO 80401 USA绿色建筑博客+N%YH a{v
J Neymark & Associates, Golden, CO 80401 USA绿色建筑博客VM3AkK#Ch.g.m
Publisher: ELSEVIER SCIENCE SA, PO BOX 564, 1001 LAUSANNE, SWITZERLAND绿色建筑博客P~:h,xmNF
Subject Category: ENGINEERING, CIVIL; CONSTRUCTION & BUILDING TECHNOLOGY; ENERGY & FUELS
f5dGE5}0IDS Number: 607HE
)?,ybnJ]WY0绿色建筑博客 h6fhfbGoN2\*Z4\4M,]
ISSN: 0378-7788
4u;J L-R3r(x&R*a.Z0摘要:绿色建筑博客&Dk*zl\$C0i&BQG
EI-9绿色建筑博客R6Y?^| C-t P'M

&Eo!]3x*p!vd/?0绿色建筑博客 h\G(l1@-IY4S+t~{
Title: Developing a new-generation building simulation tool in the United States绿色建筑博客['`u2Z+L\
Author(s): Crawley DB, Lawrie LK, Pedersen CO, Liesen RJ, Fisher DE, Strand RK, Taylor RD, Winkelmann FC, Buhl WF, Erdem AE, Huang YJ
,K*M{1}H-Zt0Source: THERMAL PERFORMANCE OF THE EXTERIOR ENVELOPES OF BUILDINGS VII, CONFERENCE PROCEEDINGS : 699-708, 1998
\ n\*ciA0Book Series: ASHRAE SPECIAL PUBLICATIONS绿色建筑博客&wq"}O"P9aQ0F%Mu
Editor(s): Geshwiler M绿色建筑博客d#R8az {m
Document Type: Article
v IA3BX\-s0Language: English绿色建筑博客q.o4mDce7W
Cited References: 13绿色建筑博客*fy\+a*Z4n4Y
Conference Information: 7th Thermal Performance of the Exterior Envelopes of Buildings Conference绿色建筑博客+G&Zn4e L0@ t|Z^
CLEARWATER BEACH, FLORIDA, DEC 06-10, 1998绿色建筑博客td?U j;zi+l$qj
US DOE; Amer Soc Heating, Refrigerat & Air Conditioning Engineers Inc; Oak Ridge Natl Lab; Bldg Environm & Thermal Envelope Council; Natl Res Council Canada; Chartered Inst Bldg Serv Engineers绿色建筑博客;_8KKP9j*|w hU ?2D
Abstract: In 1995, the U.S. Department of Energy (DOE) began planning for a new generation of building simulation tools. As part of this planning activity, DOE created an inventory of DOE-sponsored tools in early 1996. By mid-1996, this work had evolved into a web-based directory with information on 50 software tools. Today the directory contains information on more than 125 tools from around the world. To inform the simulation tool planning efforts, DOE sponsored workshops in August 1995 and June 1996, inviting energy simulation developers and users.绿色建筑博客!fT#^DU.]#Lp
After the two workshops, DOE began defining the structure and capabilities of a new building energy simulation tool by building on experience with two well-known programs: DOE-2 and BLAST Development of the new program, EnergyPlus, started in early 1996 and release is planned for 2000. EnergyPlus is intended to replace both DOE-2 and BLAST. EnergyPlus will include innovative simulation features including variable time steps, built-in and external modular systems integrated with a heat and mass balance-based zone simulation, interzone airflow, and new ground heat transfer modules. This paper describes the structure Of the web-based tools directory, the results of the two workshops, the capabilities and structure of EnergyPlus, and DOE future plans for building simulation tools development.绿色建筑博客c;fC2Q'X s2J
绿色建筑博客4D{ PB U%dt_ al
Addresses: Crawley DB (reprint author), US DOE, Washington, DC 20585 USA
4hOW1L(u Eo0US DOE, Washington, DC 20585 USA绿色建筑博客;B4I-n iem
Publisher: AMER SOC HEATING, REFRIGERATING AND AIR-CONDITIONING ENGS, 1791 TULLIE CIRCLE NE, ATLANTA, GA 30329 USA
F ~8T5IfV0IDS Number: BT72D绿色建筑博客8TRDT-uFM5J

}5y a3\]'v0~0ISBN: 1-883413-70-2
Y9^O-e As'e0摘要:
"\K(C3w(X0开发美国新一代建筑能耗工具
5PP6DSv,na01995年,美国能源部开始计划开发新一代建筑能耗软件。作为该计划行动的部分,DOE在1996年初创造了DOE资助的工具目录。到1996年中,该工作发展成涉及50个软件工具信息的网络基础目录。今天,目录包含信息已达全球125多个软件。为了告知该模拟工具的计划努力,DOE在August 1995 和 June 1996资助研讨会,邀请能耗模拟的开发者和使用者。绿色建筑博客Ui+QW3@7F+Fm ?
两次研讨会后,DOE开始定义新的建筑能耗模拟工具的结构和能力,通过建筑在2款知名软件的实验的基础上。。新一代软件,E+,1996年早开始开发,预计2000年发布。E+意在代替DOE-2和BLAST。E+将包含创新的模拟特点,包含:可变时间步长、建筑内部模型和外部模型系统集成入热和质的平衡区域模拟,区域间气流,新的地面热传导模型。该文章描述了以网络为基础的工具目录,两次研讨会的结果,E+的能力和结构,还有DOE对于建筑模拟软件开发的未来计划。绿色建筑博客bJS3]y;PPI6XI3p#a

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D&`;_.Ca#O0Title: EnergyPlus: creating a new-generation building energy simulation program绿色建筑博客H7M7v2p,T"y|O"{1C
Author(s): Crawley DB, Lawrie LK, Winkelmann FC, Buhl WF, Huang YJ, Pedersen CO, Strand RK, Liesen RJ, Fisher DE, Witte MJ, Glazer J
Q6W0V:u,n7h8B0Source: ENERGY AND BUILDINGS 33 (4): 319-331, Sp. Iss. SI APR 2001绿色建筑博客9Jry(l%t3jhjK,[2])@
Document Type: Article绿色建筑博客8RxWt ~E
Language: English绿色建筑博客o!Sp/d0T7D|rC
Cited References: 21
T"]^S|p0Conference Information: 6th International IBPSA Conference绿色建筑博客m0o6_d#h(L a"e
KYOTO, JAPAN, SEP 13-15, 1999绿色建筑博客9@W:Q6Cd
绿色建筑博客x#tF3y'X.`/@1U4M
Abstract: Many of the popular building energy simulation programs around the world are reaching maturity - some use simulation methods land 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.
f#zi*L-lT?0In 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. (C) 2001 Elsevier Science B.V. All rights reserved.
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#B7G&tO V#?O,R1~V O#V0Author Keywords: building performance; simulation; energy performance; heat balance; mass balance; modular simulation
VQ^o2}!ER.@0Addresses: Crawley DB (reprint author), US DOE, EE-41,1000 Independence Ave SW, Washington, DC 20585 USA绿色建筑博客q q+lh LT f
US DOE, Washington, DC 20585 USA
,`g*ahiOK+SB!]0Publisher: ELSEVIER SCIENCE SA, PO BOX 564, 1001 LAUSANNE, SWITZERLAND
,TL%| O|.j `0Subject Category: ENGINEERING, CIVIL; CONSTRUCTION & BUILDING TECHNOLOGY; ENERGY & FUELS
-ih*t\:X$^ }'L0IDS Number: 407LA
n+H*l.pM4h3_HH E0绿色建筑博客qn+Ro8I$w2o K%cI ?
ISSN: 0378-7788绿色建筑博客 X2H8|#S+Ow\Lg \s
绿色建筑博客EBk ]m'|Z4Og R
E+:创造新一代建筑能耗模拟软件
H"@;gdZ:|t!`0全世界许多流行的建筑能耗模拟程序都正在趋近完美,一些甚至在60年代就诞生了。20多年来,美国政府资助2小时建筑能耗模拟程序,BLAST和DOE-2。设计在大型计算机的时代,更进一步扩大它们的能力是很困难、很费时且很昂贵的。同时,在分析和计算方法上,30年来有很大进步,对于这些工具的明显的发展提供了一个机会。绿色建筑博客FT-~1WxAf/y
1996年,美国联邦机构开始开发新一代建筑能耗模拟软件工具,E+,建立在对两个已经存在的程序:DOE-2和BLAST的试验的基础上。E+包含很多创新的特征: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。其他计划中的模拟能力包含:多区域气流,电能和太阳热和光电模拟。测试版在1999年底,2001年初发布。
"M+}F \1dw8@8Q0绿色建筑博客j)sE];ZVv
Title: Energyplus: The new generation energy simulation program beyond blast and DOE-2
f r"v5B N;Zq4?0Author(s): Crawley DB, Pedersen CO, Winkelmann FC, Lawrie LK
L3?F7Wv ^;a0Source: PROCEEDINGS OF THE 23RD NATIONAL PASSIVE SOLAR CONFERENCE 23: 243-248, 1998绿色建筑博客:t j P,I~P
Book Series: PROCEEDINGS OF THE NATIONAL PASSIVE SOLAR CONFERENCE绿色建筑博客X/Vu\ y o_)`h
Editor(s): CampbellHowe R, Cortez T, WilkinsCrowder B
paX9B(qjD)y7g0Document Type: Article
? Y o.v4h7{~0A0Language: English
#k N,N:En#z0Cited References: 4
l`@ UL%r0Conference Information: 23rd National Passive Solar Conference
mefyg[x;U-l!sr)l0ALBUQUERQUE, NEW MEXICO, JUN 14-17, 1998绿色建筑博客i w8M_,_4w;n+h
Amer Solar Energy Soc; US DOE; Org Amer States; Sandia Natl Labs; Univ New Mexico; NationsBank; New Mexico Land Off; DOE, Albuquerque Operat Off; Public Serv Co New Mexico; New Mexico Energy Off绿色建筑博客o~?,N.q
Abstract: Many existing building energy simulation programs around the world are reaching maturity. They use simulation methods land even code) that originated in the 1960s. For more than two decades, the US government has developed two hourly building energy simulation programs, DOE-2 and BLAST. Without substantial redesign and recoding, expanding their capabilities has become difficult, time-consuming, and expensive. During the same time, recent advances in analysis and computational methods and power have increased the opportunity for significant improvements in these tools.绿色建筑博客v*@~Wf3E6n w3i
In early 1996, a federal agency began developing a new building energy simulation tool, EnergyPlus, building on development experience with two existing programs: DOE-2 and BLAST. Beta testing of EnergyPlus begins in 1998. EnergyPlus will include innovative simulation features including variable time steps, built-in template and external modular systems that are integrated with a heat balance-based zone simulation, and input and output data structures tailored to facilitate third party interface development. Other simulation capabilities planned for the first release include multizone airflow, and electric power and solar thermal and photovoltaic simulation.绿色建筑博客whV)?UX~
绿色建筑博客tIE&]4RI
Addresses: Crawley DB (reprint author), US Dept Energy, 1000 Independence Ave SW, Washington, DC 20585 USA
Iu js*eOMa]M0US Dept Energy, Washington, DC 20585 USA绿色建筑博客,XZu.U`rLL)|n+l h
Publisher: AMERICAN SOLAR ENERGY SOCIETY INC, 2400 CENTRAL AVE, SUITE G-1, BOULDER, CO 80301 USA
GT,sv1R)nE6^&MbU0IDS Number: BQ56E
4e7}Yr2G0
5aI*a*D h0ISBN: 0-89553-213-1
d$]!L!_W3e9_Z0超越blast和DOE-2的新一代能量模拟程序绿色建筑博客%rj]hvb l
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