逄秀锋,等:我国建筑调适发展现状与前景
指南与标准、建立激励机制以及政策法规、走向市场化产业化。我国建筑调适的发展目前也遵循了这样一条发展路径,不同的是,我们的目标是用更短的时间完成西方国家四十多年走过的道路。
参考文献:
[1]Mills E.Commissioning Capturing the Potential[J].ASHRAE Journal,2011,53(2):1-2.
[2]逄秀锋,刘珊,曹勇.建筑设备与系统调适[M].北京:中国建筑工业出版社,2015:1-2.[3]Legris C,Choiniere D,Milesi Ferretti.Annex47Report1:Commissioning Overview[R].Paris:International Energy Agency,2010.[4]The U.S.Department of Energy.New DOE Rearch Strengthens Business Ca for Building Commissioning[EB/OL].(2019-05-02)[2020-01-02].https://www.energy.gov/eere/buildings/articles/ new-doe-rearch-strengthens-business-ca-building-commissioning.
作者简介:逄秀锋(1976),男,辽宁人,毕业于美国内布拉斯加大学林肯分校,暖通空调专业,博士,研究员,研究方向:建筑调适技术、建筑系统能耗模拟、暖通空调系统故障诊断与优化控制、智慧建筑(xpang113@163.com)
。
Energy and Buildings
https://www.sciencedirect.com/journal/energy-and-buildings/
vol/224/suppl/C
Volume224,1October2020
(1)A new analytical model for short-time analysis of energy
piles and its application,by Jian Lan,Fei Lei,Pingfang Hu,
Na Zhu,Article110221
Abstract:An energy pile is a special form of vertical ground heat
exchanger that couples the roles of structural support and heat trans-
fer.Modeling the transient heat transfer process inside an energy pile
has importance;however,available analytical models either have in-
sufficient calculation accuracy or are computationally demanding.
Bad on three existing models,this paper propos a novel short-
term hybrid composite-medium line-source(HCMLS)model,which
is not only efficient in computation but also more accurate than most
traditional analytical models.The model is suitable for ground heat
exchangers of various radii.Comparisons between the hybrid analyti-
cal model and a numerical model are made for energy pile cas with
different parameters,including the thermal properties,borehole radii,
relative positions of tubes,and number of tubes.In general,the hy-
brid composite-medium line-source model gives credible prediction
after100min.The new model is further validated by the infinite
composite-medium line-source(ICMLS)model,which is currently
the most theoretically complete short-term model.Moreover,the new
model is applied to thermal respon tests(TRTs).The least dimen-
sionless test duration for interpretations bad on the modified hybrid
composite-medium line-source(C-HCMLS)solution is Fo>1.7.
This study renders the application of in situ TRTs to energy piles
with large diameters feasible.
Keywords:Ground heat exchanger;Energy pile;Short time re-
spon;Thermal respon testing
(2)Charging performance of latent thermal energy storage sys-
tem with microencapsulated pha-change material for domestic
hot water,by Y.Fang,Z.G.Qu,J.F.Zhang,H.T.Xu,G.L.Qi,Arti-
cle110237
(3)Thermographic2D U-value map for quantifying thermal
bridges in building fa ades,by Blanca Tejedor,Eva Barreira,
Ricardo M.S.F.Almeida,Miquel Casals,Article110176
(4)Urban morphology and building heating energy con-
sumption:Evidence from Harbin,a vere cold region city,
by Hong Leng,Xi Chen,Yanhong Ma,Nyuk Hien Wong,
Tingzhen Ming,Article110143
(5)UK Passivhaus and the energy performance gap,by Ra-
chel Mitchell,Sukumar Natarajan,Article110240
Building and Environment
https://www.sciencedirect.com/journal/building-and-environ-
ment/vol/183/suppl/C
Volume183,October2020
(1)Residential buildings airtightness frameworks:A review
on the main databas and tups in Europe and North
America,by Irene Poza-Casado,Vitor E.M.Cardoso,Ricar-
do M.S.F.Almeida,et al,Article107221
Abstract:The airtightness of buildings has gained relevance in the
last decade.The spread of the regulatory frameworks,the demand of
stricter requirements,schemes for testing and quality control,the cre-
ation of airtightness databas and its analysis,is proof of this real-
ity.The prent review encompass schemes developed in Europe
and North America with regard to the aspects for national residen-
tial ctors.A normative framework on requirements and recommen-
dations at the national level is compiled.Whole building airtightness
databas are compared bad on their structures and measurement
data acquisition protocols.Gathered complementary information not
directly related to testing is analyd and airtightness influencing fac-
tors importance and relationships are discusd.Weakness and
strengths in the different aspects of the existing databa tups are
identified.Also,neglected or not entirely undertaken topics are pin-
pointed together with the suggestion of possible opportunities for
future works and changes.Amongst other relevant remarks and dis-
cussions,it is concluded that the lack of uniformization in method
between countries,the need for a minimum data tup,the lack of
data analysis on relating the energy impact with the advancement in
requirements of airtightness performance and the implemented tups
are some of the main issues to address in the near future.
Keywords:Review paper;Airtightness;Regulation policy
(2)A simulation framework for predicting occupant thermal
nsation in perimeter zones of buildings considering direct
solar radiation and ankle draft,by Shengbo Zhang,Jamie P.
Fine,Marianne F.Touchie,William O’Brien,Article107096
(3)Comparative review of occupant-related energy aspects
of the National Building Code of Canada,by Ahmed Abdeen,
William O’Brien,Burak Gunay,Guy Newsham,Heather
Knudn,Article107136
Applied Energy
https://www.sciencedirect.com/journal/applied-energy/vol/
275/suppl/C
Volume275,1October2020
(1)Performance characteristics of variable conductance loop
thermosyphon for energy-efficient building thermal control,by
Jingyu Cao,Xiaoqiang Hong,Zhanying Zheng,et al,Article115337
Abstract:Variable conductance loop thermosyphon(VCLT)manip-
ulates natural pha-change cycle to regulate the heat transfer.Its pri-
mary advantages include high sustainability,simple design and low
cost.One of the potential applications of variable conductance loop
thermosyphon is thermal control in buildings for achieving high
energy efficiency.In this study,a distributed steady-state model was
implemented to determine the heat transfer control characteristics of
variable conductance loop thermosyphon for the first time and evalu-
ate its effectiveness on preci air-conditioning for buildings.The in-
ternal flow resistance ris from0.002K/W to0.305K/W and the
heat transfer rate decreas from468.5W to71.9W when the rela-
tive opening degree of the regulating valve reduces from1.00to
0.17under normal boundary conditions.The thermodynamic analys
show that the regulating valve of the variable conductance loop ther-
mosyphon can enable effective thermal control over a wide range of
heat transfer rate to accomplish indoor thermal comfort.The study
also reveals that variable conductance loop thermosyphon can be ef-
fectively adopted with various working fluids and over wide ranges
of heat source and heat sink temperatures.
Keywords:Air-conditioning;Energy-efficient building;Loop ther-
mosyphon;Numerical study
(2)Increasing the energy flexibility of existing district heating
networks through flow rate variations,by Jacopo Vivian,Dav-
ide Quaggiotto,Angelo Zarrella,Article115411
(3)A framework for uncertainty quantification in building
heat demand simulations using reduced-order grey-box en-
ergy models,by Mohammad Haris Shamsi,Usman Ali,Eleni
Mangina,James O’Donnell,Article115141
(2020-10-10《建筑节能》杂志社侯恩哲摘录)
7
