eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
1
18
10.30469/arce.2019.89277
89277
مقاله پژوهشی
Experimental Study of Applying Natural Zeolite as A Partial Alternative for Cement in Self-Compacting Concrete (SCC)
Saeed Bozorgmehr Nia
saeed.bozorgmehr@gmail.com
1
Mehdi Nemati Chari
nemati@yahoo.com
2
Mohammad Reza Adlparvar
adlparvar_m@yahoo.com
3
Ph.D. of Civil Engineering, Manager of Research and Development at Aptus Research and Production Company
Department of Concrete Technology of Road, Housing and Urban Development Research Center
Associate Professor, Faculty of Civil Engineering, Qom University
In recent years, with the increasing demand for modern and environmentally friendly materials, natural pozzolan s can be proved to be such a material and several researchers have focused their research efforts in using it as a partial substitute in the manufacture of concrete and mortar. This study concerns the fresh and hardened properties of self-compacted concrete (SCC) with natural zeolite (NZ). SCC mixtures were prepared by inclusion various amounts of NZ (0–20% by weight of cement) at different water/binder ratios. The fresh properties were investigated by slump flow, visual stability index, T50, V-funnel and L-box. The slump flow and compressive strength changes with hauling time were also considered. The hardened properties were tested for compressive strength, splitting tensile strength, ultrasonic pulse velocity (UPV), initial and final absorption. Results showed that with the inclusion of NZ, SCC can be successfully produced with satisfactory performance in flow ability, passing ability and viscosity. For all mixtures, flowability was lost with hauling time, although the rate of slump flow reduction was higher for mixes with higher amount of NZ. Regarding to hardened properties, the effect of NZ on the compressive and splitting tensile strength of SCC mixtures is generally related to its W/B ratio. Moreover, compressive strength enhancement was seen for mixes with slump flow higher than 550 mm at prolonged mixing time. The UPV measurement shows that the effect of NZ on the UPV values at a high compressive strength are negligible. Compared to control SCC, absorption characteristics of SCC containing NZ significantly decrease with increasing ages.
https://www.arce.ir/article_89277_403851cbb1a0f489e00b3c9a56d105ec.pdf
Self-Compacting Concrete
Zeolite
Durability
Hardened Properties
eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
19
27
10.30469/arce.2019.89278
89278
مقاله پژوهشی
Reliability Assessment of Dynamic Soil Properties
Ahmad Heydari
a.heydari@sutech.ac.ir
1
Aslan Jalilnejad
a1991jalilnejad@gmail.com
2
Maral Nonahal
maralnonahal19912@gmail.com
3
M.Sc. of Geotechnical Engineering, Department of Civil and Environmental Engineering, Shiraz University of Technology
M.Sc. of Geotechnical Engineering, Department of Civil and Environmental Engineering, Shiraz University of Technology
B.Sc. of Architectural Engineering, Department of Architectural Engineering, Ardestan Branch, Islamic Azad University, Ardestan, Iran
Dynamic soil properties are very important topic in geotechnical earthquake engineering due to associated with dynamic loading. Probabilistic analysis of dynamic soil properties is as effective tools to evaluate uncertainty of soil parameters. In this paper, Monte Carlo Simulation (MCS) is used for reliability assessment of dynamic soil properties. For this purpose, a famous model is selected for predicting normalized shear modulus reduction and damping ratio curves. The selected stochastic parameters are internal friction angle, dry and saturated unit weight of soil which is modeled using normal probability distribution functions. To assess the reliability of dynamic soil parameters a computer model is developed for generating input parameter uncertainties. The results show that the shear modulus and damping ratio have more uncertainty for middle range of shear strain. The sensitivity analysis’s results show that saturated unit weight is the most effective parameter in shear modulus and damping ratio.
https://www.arce.ir/article_89278_229ba5e3c9414ba2052611bedbb25ae4.pdf
Damping Ratio
Shear Modulus
Monte Carlo simulation
Reliability assessment
eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
28
35
10.30469/arce.2019.89279
89279
مقاله پژوهشی
Clear-cut, Easy and Safe Air Purifying Technique (Poyrazmatic)
Hadi Habibazarfard
hhabibazarfard@gmail.com
1
Ahmed Cemal Saydan
acsaydam@gmail.com
2
M.Sc. of Environmental Engineering, Department of Environmental Engineering, Hacettepe University Ankara, Turkey
Professor, Department of Environmental Engineering, Hacettepe University Ankara, Turkey
Indoor air quality is inevitably linked to ambient air quality. What controls ambient air quality also affects indoor air quality. The desert belts and their respective dust plumes on a global basis regulate ambient air quality. Each desert has its own exclusive extension zone and during the period of cyclonic depressions millions of tons of dust is injected into the atmosphere. These dust particles having 10- micron size or less can traverse long distances and are composed of clay minerals and embedded bacteria fungus and viruses. It has been shown that when inhaled it may adversely affect the respiratory system as well as triggering genes that are responsible from the production of specific proteins that results with migraine attacks. Basing on this work we have developed simple water based air purifier system that can effectively removes 90 % of particles in an hour and ultimate purification is reached within 120 minutes in one cubic meter experimental chamber. Of course, increase in air flux will inevitably shorten the time necessary for ultimate purification for a given environment. The air purifying system consists of an aquarium pump hose and air stone and simple 5 l water bottle. The basic principle behind the purification system based on the fact that during the rise of air bubble the air bubbles increases the surface area that is in contact with water and friction with water creates a vortex further assisting the transfer of any particles and bacteria fungus and virus to water phase. With this simple purification system the adverse effect of dust particles can effectively be removed from indoor environment. Renewing the water is the only thing required for the continuation of effective purification. The water is not wasted and can be used to irrigate the flowers lawns etc. Such systems also offer an ideal low cost pre-cleaning filtering that can be used to extent the operational life of expensive filtering systems.
https://www.arce.ir/article_89279_bd6b5bf4e8d6f15c257c3f78fa47cc86.pdf
Air Quality
Bacteria
Dust
water filtration
eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
36
48
10.30469/arce.2019.89280
89280
مقاله پژوهشی
Optimum Design of Space Trusses using Water Cycle Algorithm
Masoud Salar
masoud.salar@polimi.it
1
Babak Dizangian
b.dizangian@velayat.ac.ir
2
Moterza Mir
mortezaa.mir1986@gmail.com
3
Ph.D. Candidate, Department of Civil and Environmental Engineering, Politecnico di Milano, Milano, Italy
Assistant Professor, Department of Civil Engineering, Velayat University, Iran shahr, Iran
M.Sc. of Structural Engineering, Department of Civil Engineering, Zahedan Branch, Islamic Azad University, Zahedan, Iran
In this paper the water cycle algorithm (WCA) is utilized for sizing optimization of space trusses. Finding the optimum design of 3-D structures is a difficult task as the great number of design variables and design constraints are present in optimization of these type of structures. The efficiency of the WCA are demonstrated for truss structures subject to multiple loading conditions and constraints on member stresses and nodal displacement. Numerical results are compared with those reported in the literature where the obtained statistical results demonstrate the efficiency and robustness of WCA where it provided faster convergence rate as well as it found better global optimum solution compared to other metaheuristic algorithms.
https://www.arce.ir/article_89280_d7955c8ea66ac939dba07bf6dcb03fcf.pdf
Water Cycle Algorithm
Weight Optimization
Space trusses
Global optimum
eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
49
57
10.30469/arce.2019.89282
89282
مقاله پژوهشی
The Karkheh River Streamflow Forecast based on the Modelling of Time Series
Karim Hamidi Machekposhti
karim.hamidi@srbiau.ac.ir
1
Hossein Sedghi
h.sedghi1320@gmail.com
2
Abdolrasoul Telvari
telvari@gmail.com
3
Hossein Babazadeh
h_babazadeh@srbiau.ac.ir
4
Department of Water Sciences and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Department of Water Sciences and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Department of Civil Engineering, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran
Department of Water Sciences and Engineering, Science and Research Branch, Islamic Azad University, Tehran, Iran
Autoregressive integrated moving average (ARIMA) models are appropriate for the annual streamflows (annual peak and maximum and also mean discharges) of the Karkheh River at Jelogir Majin station of Karkheh river basin in Khuzestan province in western Iran, through the Box- Jenkins time series modelling approach. In this research among the suggested models interpreted from ACF and PACF, ARIMA(4,1,1) for all annual streamflows satisfied all tests and showed the best performance. The model forecasted streamflow for ten leading years showed the ability of the model to forecast statistical properties of the streamflow in short time in future. The SAS and SPSS softwares were used to implement of the models.
https://www.arce.ir/article_89282_882b7fdcead9e68f6b111c7738cb9185.pdf
Hydrologic Time Series
Box-Jenkins Approach
Arima Model
Karkheh river
eng
Papyrus Press
Advance Researches in Civil Engineering
2645-7229
2019-07-01
1
3
58
71
10.30469/arce.2019.89283
89283
مقاله پژوهشی
Comparing Semi Active Control of Bridge via Variable Stiffness and Damping Systems and MR Dampers
Fereydoon Amini
famini@iust.ac.ir
1
Sara Zalaghi
sarazalaghi2017@gmail.com
2
Professor, College of Civil Engineering, Iran University of Science and Technology, Tehran, Iran
Research Assistant, College of Civil Engineering, Iran University of Science and Technology, Tehran, Iran
Semi active devices can be used to control the responses of a continuous bridge during earthquake excitation. They are capable of offering the adaptability of active devices and stability and reliability of passive devices. This study proposes two semi-active control method protection of bridge using variable stiffness and damping systems and MR dampers. The first method is variable stiffness and damping with eight different (on-off) control schemes which is optimized with genetic algorithm. Genetic algorithm is used to define the parameters of this method. In the second method, an intelligent controller using fuzzy control of MR damper is developed. In particular, a fuzzy logic controller is designed to determine the command voltage of MR dampers. In order to evaluate the effectiveness of the proposed method, the performances of the proposed controllers are compared in numerical study. Results reveal that the developed controllers can effectively control both displacement and acceleration responses of the continuous bridge.
https://www.arce.ir/article_89283_83520f7b5f096a8835e12c39cb231423.pdf
Semi-active devices
MR damper
Variable stiffness
Variable damping
GA algorithm
Fuzzy logic control