33407
2304-6295
Construction of Unique Buildings and Structures
1
16
2014
1-71
UNK
RUS
4-22
Ufa State Petroleum Technological University
Safiullin
Marat
safiullinmarat@list.ru
Ufa State Petroleum Technological University
Semenov
Alexander
asfugntu@yandex.ru
1, Kosmonavtov St., Ufa, Russia
Peter the Great St. Petersburg Polytechnic University
Porivaev
Ilya
iporivaev@gmail.com
29 Politechnicheskaya St., St. Petersburg, 195251, Russia
Complex of virtual labs for students of “Civil Engineering” educational program
Tendency to use numerical methods to solve practical and research tasks of construction engineering makes the question of engineering simulation software implementation in the educational process of the university. Paper considers the authors developed methodical instructions to laboratory work integrated system for students of "Civil engineering" educational program. The basis of laboratory work is the principle of comparison results obtained when considering different models of the object: analytical, physical and numerical. The main part of a works is instruction of making numerical models of nodes and construction elements using the CAE system SCAD Office.
10.18720/CUBS.16.1
69
virtual experiment
physical analogue
numerical model
theoretical model
CAE systems
stress and strain analysis
https://unistroy.spbstu.ru/article/2014.16.1/
1_semenov_porivaev_safiullin_16.pdf
RAR
RUS
23-35
Saint-Petersburg State Polytechnical University
Shuravina
Darya
shdaria@list.ru
29 Polytechnicheskaya st., St.Petersburg, 195251, Russia
Saint-Petersburg State Polytechnical University
Gaas
Ivan
gaas.ivan@gmail.com
29 Polytechnicheskaya st., St.Petersburg, 195251, Russia
Saint-Petersburg State Polytechnical University
Startsev
Sergey
StartsevSA@biospacestroy.ru
29 Polytechnicheskaya st., St.Petersburg, 195251, Russia
Peter the Great St. Petersburg Polytechnic University
Kharkov
Nikita
nkharkov@mail.ru
Numerical modeling of stationary heat exchange panel building OD4 series
Results of numerical modeling of stationary heat exchange in three-dimensional model of a site of the panel building of the OD-4 series are presented in article. Dependence of thermal losses on physical parameters of construction materials of a protecting design is shown. Results of modeling are well coordinated with data of the thermovision shooting carried out by authors. Calculation for justification of technology of recovery of heatphysical characteristics of protecting designs of panel buildings due toapplication of polysulphidic tapes for sealing of interpanel seams is executed. External conditions for the climatic region of St. Petersburg arechosen. The increase in heatlosses through protecting designs at decrease in their heatphysical characteristics of rather design indicators reaches 30%. Economic efficiency of sealing of seams isdefined.
10.18720/CUBS.16.2
69
energy efficiency
energy conservation
thermal conductivity
fencing structure
moisture
thermovision
panels
joints
https://unistroy.spbstu.ru/article/2014.16.2/
2_shuravina_kharkov_gaas_startsev_16.pdf
RAR
RUS
36-47
Bryansk State Academy of Engineering and Technology
Alekseytsev
Anatoly
aalexw@mail.ru
3 Stanke Dimitrova avenue, Bryansk, 241037, Russia.
Bryansk State Academy of Engineering and Technology
Kurchenko
Natalya
ms.kurchenko@mail.ru
3 Stanke Dimitrova avenue, Bryansk, 241037, Russia.
Bryansk State Academy of Engineering and Technology
Gorbachev
Ivan
hpun@yandex.ru
3 Stanke Dimitrova avenue, Bryansk, 241037, Russia.
Bryansk State Academy of Engineering and Technology
Kashlikov
Roman
rom15061506@mail.ru
3 Stanke Dimitrova avenue, Bryansk, 241037, Russia.
Concept of the preprocessor and postprocessor for finite element analysis a plate-beam structures
The article considers а concept of building a system of pre-and post-processing to program of the finite element analysis. Rendering system of input data and calculation results are developed using the OpenGL interface. Interactive systems are built using Visual Component Library (VCL). Separate aspects of the interactive properties of the model and system documentation software based on the COM+ technology is given.
10.18720/CUBS.16.3
69
preprocessor
postprocessor
OpenGL rendering
COM automation server
visual components library
choice of objects
primitives
display lists
dialogue system
documentation
https://unistroy.spbstu.ru/article/2014.16.3/
3_alekseytsev_16.pdf
RAR
RUS
48-60
"103 Trest" GC
Petrakov
Gennadiy
p@103trest.ru
St. Petersburg, st. Zaitseva, 4, bl. 2, let. A, 198096, Russia
O-6995-2019
6508103761
0000-0002-1196-8004
Peter the Great St. Petersburg Polytechnic University
Vatin
Nikolai Ivanovich
vatin@mail.ru
St. Petersburg, Russian Federation
Engineering Innovation Center
Kurganov
Yuri
kurganov_ya@vodokanal.spb.ru
SUE "Vodokanal of St. Petersburg", 42 Kavalergardskaya st., St.Petersburg, 191015, Russia.
Peter the Great St. Petersburg Polytechnic University
Starkov
Vadim
vstar15@mail.ru
29 Politechnicheskaya St., St. Petersburg, 195251, Russia
About the making Regional Methodical Document “Designing and installation pipelines for water supply and sewage systems in Saint-Petersburg” (RMD 40-20-2013 Saint-Petersburg)
The article says about the main requirements of the Regional Methodical Document “Designing and installation pipelines for water supply and sewage systems in Saint-Petersburg” (RMD 40-20-2013 St. Petersburg). This document is a modern practical guide to the design and construction (and reconstruction) of water supply and sanitation in the territory of St. Petersburg. This document recommends for St. Petersburg the materials of water and sewage pipeline such as PE 100-RC (with a significantly enhanced resistance to slow crack growth –stress cracking resistance) and ductile iron. These pipes are used for alternative pipe installation methods. Their service life can be up to 100 years.
10.18720/CUBS.16.4
69
water supply systems
sewage systems
plastic pipes
iron pipes
technical supervision
https://unistroy.spbstu.ru/article/2014.16.4/
4_vatin_kurganov_petrakov_starkov_16.pdf
RAR
RUS
61-71
Saint-Petersburg State Polytechnical University
Beskorovaynaya
Olga
o.n.beskorovaynaya@gmail.com
29 Polytechnicheskaya st., St.Petersburg, 195251, Russia.
Peter the Great St. Petersburg Polytechnic University
Bychkov
Dmitriy
bolhg1@mail.ru
29 Polytechnicheskaya st., St.Petersburg, 195251, Russia.
Peter the Great St. Petersburg Polytechnic University
Gaevskaya
Zlata
gaezlata@yandex.ru
29 Politechnicheskaya St., St. Petersburg, 195251, Russia
The quickly erected buildings of lightweight nanomodified concrete
In this article the analysis of constructive and technical features of quickly erected buildings of panel type developed in the 70th years waspublished. Shortcomings of considered designs wererevealed. Elimination of shortcomings was solved due to improvements in existing series of quickly erected buildings and use of lightweight nanomodified concrete in bearing elements of designs. Use of a new material allows decrease in a body weight of bearing designs, change of a form of section of a design and elimination of "the cold bridge".
10.18720/CUBS.16.5
69
the quickly erected buildings
nanomodified concrete
low-rise housing
affordable housing
the wall panel
https://unistroy.spbstu.ru/article/2014.16.5/
5_beskorovaynaya_16.pdf