• 제목/요약/키워드: Damper Control System

검색결과 703건 처리시간 0.024초

부속실 가압 시스템의 방연풍속에 관한 수치해석적 연구: 공동주택 부속실내에 다수 출입문의 존재시 기류특성 (Numerical Study on Air Egress Velocity in Vestibule Pressurization System : Characteristics of Air Flow in the Vestibule with Multiple Fire Doors in an Apartment Building)

  • 서찬원;신원규
    • 한국화재소방학회논문지
    • /
    • 제28권5호
    • /
    • pp.30-36
    • /
    • 2014
  • 건축물 내부에 화재가 발생 시 재실자 피난 및 소방관의 소화활동에 직접적인 영향을 미치는 급기가압 제연설비는 방화문 비개방 시에는 차압에 의하여, 방화문 개방 시에는 방연풍속에 의하여 연기의 침입을 방지하는 것을 핵심 개념으로하고 있다. 이를 위해서는 특히 재실자 피난 시 방화문이 개방되는 경우 균일한 방연풍속이 형성될 수 있도록 공기 공급 유니트를 배치할 필요가 있다. 본 연구에서는 대형건물에 설치되는 다수의 출입문을 갖는 부속실의 경우, 방연풍속이 균일하게 형성될 수 있는지에 대하여 수치해석을 수행하였다. 부속실의 댐퍼위치가 한쪽으로 치우친 경우 방연풍속으로 연기의 침입을 막는 것이 아니라, 역류현상이 발생하여 방연성능에 영향을 미칠 수 있음을 확인하였다.

화생방 방호시설을 위한 원격감시 패널 및 제어시스템 (Remote Monitoring Panel and Control System for Chemical, Biological and Radiological Facilities)

  • 박형근
    • 한국산학기술학회논문지
    • /
    • 제20권1호
    • /
    • pp.464-469
    • /
    • 2019
  • 본 논문에서는 화생방 방호시설에 사용되는 가스 차단밸브를 비롯한 각종 밸브 및 출입통제 챔버를 제어할 수 있는 원격 감시패널과 제어시스템을 개발하였다. 원격 감시패널은 화생방 통제실에 설치되는 메인 패널과 청정 기계실에 설치되는 보조 패널로 구성하였으며, 그 크기를 순수 제어용과 CCTV를 포함한 제어용으로 구분하여 개발하였다. 본 시스템은 방폭문 및 가스 차단문이 전시 및 평시에 발생할 수 있는 상황별 상태에 따라 원격 감시 및 제어가 가능하며, 평시모드와 전시모드로 구분하여 각 모드 작동시 추가적인 활성창을 통하여 제어 정보를 표시한다. 특히, 화생방 방호시설 내부의 각종 밸브 및 센서 그리고 각종 여과기의 동작상태를 주기적으로 센싱하여 각각의 기구 및 기기들의 정상동작 여부를 파악하며, 수리 및 교체가 필요할 경우 이를 원격으로 상황 근무자에게 경보함으로써 위급상황에서 각각의 기기들의 동작이상으로 인한 피해를 미연에 방지한다. 이를 통하여 화생방 상황 발생시 차단밸브 및 양압밸브의 상태에 따른 송풍기, 급기 및 배기 댐퍼의 작동, 비상 발전기 및 냉각수 펌프 등의 제어가 가능하여 재래식 무기 및 핵폭발에 의한 폭풍압의 급격한 유입으로 인한 피해를 예방할 수 있다.

Structural Design and Performance Evaluation of a Mid-story Seismic Isolated High-Rise Building

  • Tamari, Masatoshi;Yoshihara, Tadashi;Miyashita, Masato;Ariyama, Nobuyuki;Nonoyama, Masataka
    • 국제초고층학회논문집
    • /
    • 제6권3호
    • /
    • pp.227-235
    • /
    • 2017
  • This paper describes some of the challenges for structural design of a mid-story seismic isolated high-rise building, which is located near Tokyo station, completed in 2015. The building is a mixed-use complex and encompasses three volumes: one substructure including basement and lower floors, and a pair of seismic isolated superstructures on the substructure. One is a 136.5m high Main Tower (office use), and the other is a 98.5 m high South Tower (hotel use). The seismic isolation systems are arranged in the $3^{rd}$ floor of the Main Tower and $5^{th}$ floor of the South Tower, so that we call this isolation system as the mid-story seismic isolation. The primary goal of the structural design of this building was to secure high seismic safety against the largest earthquake expected in Tokyo. We adopted optimal seismic isolation equipment simulated by dynamic analysis to minimize building damage. On the other hand, wind-induced vibration of a seismic isolated high-rise building tends to be excited. To reduce the vibration, the following strategies were adopted respectively. In the Main Tower with a large wind receiving area, we adopted a mechanism that locks oil dampers at the isolation level during strong wind. In the South Tower, two tuned mass dampers (TMDs) are installed at the top of the building to control the vibration. In addition, our paper will also report the building performance evaluated for wind and seismic observation after completion of the building. In 2016, an earthquake of seismic intensity 3 (JMA scale) occurred twice in Tokyo. The acceleration reduction rate of the seismic isolation level due to these earthquakes was approximately 30 to 60%. These are also verified by dynamic analysis using observed acceleration data. Also, in April 2016, a strong wind exceeding the speed of 25m/s occurred in Tokyo. On the basis of the record at the strong wind, we confirmed that the locking mechanism of oil damper worked as designed.

등가정하중을 이용한 스프링-댐퍼 제어시스템 구조물의 최적설계에 관한 기초연구 (Preliminary Study on Structural Optimization with Control Variables Using Equivalent Static Loads for Spring-damper Control Systems)

  • 유남선;정의진;박경진;김태경
    • 대한기계학회논문집A
    • /
    • 제38권6호
    • /
    • pp.619-627
    • /
    • 2014
  • 본 논문은 등가정하중을 이용하여 제어시스템을 포함한 구조물의 설계를 위한 최적화 방법을 제안한다. 지난 연구는 구조물과 제어시스템 최적설계를 독립적으로 분리하여 수행하였고, 구조물과 제어시스템을 동시에 최적화하여도 제어시스템의 제어변수는 정상상태에서만 최적화하여 성능을 향상시켰다. 하지만 제어변수는 모든 시간영역에서 최적화해야 한다. 즉, 제어시스템의 해석은 과도상태에서 수행해야 한다. 본 연구에서는 새로운 등가정하중을 이용하여 제어변수를 포함하는 제어시스템 구조물의 최적설계를 위한 방법을 제시하였다. 등가정하중은 동적하중이 구조물에 작용할 때 발생하는 임의 시간에서의 변위장과 동일한 변위장을 만들어내는 정하중을 의미한다. 이렇게 계산된 등가정하중을 이용하여 설계영역에서 선형정적응답 최적설계를 진행한다. 몇 가지 예제를 통해 새로운 등가정하중을 적용한 동적응답 최적설계방법의 유용성을 확인하였다.

Vibration control in high-rise buildings with tuned liquid dampers - Numerical simulation and engineering applications

  • Zijie Zhou;Zhuangning Xie;Lele Zhang
    • Wind and Structures
    • /
    • 제36권2호
    • /
    • pp.91-103
    • /
    • 2023
  • Tuned liquid dampers (TLDs) are increasingly being used as efficient dynamic vibration absorbers to mitigate wind-induced vibration in super high-rise buildings. However, the damping characteristics of screens and the control effectiveness of actual structures must be investigated to improve the reliability of TLDs in engineering applications. In this study, a numerical TLD model is developed using computational fluid dynamics (CFD) and a simulation method for achieving the coupled vibration of the structure and TLD is proposed. The numerical results are verified using shaking table tests, and the effects of the solidity ratio and screen position on the TLD damping ratios are investigated. The TLD control effectiveness is obtained by simulating the wind-induced vibration response of a full-scale structure-TLD system to determine the optimal screen solidity ratio. The effects of the structural frequency, damping ratio, and wind load amplitude on the TLD performance are further analyzed. The TLD damping ratio increases nonlinearly with the solidity ratio, and it increases with the screens towards the tank center and then decreases slightly owing to the hydrodynamic interaction between screens. Full-scale coupled simulations demonstrated that the optimal TLD control effectiveness was achieved when the solidity ratio was 0.46. In addition, structural frequency shifts can significantly weaken the TLD performance. The control effectiveness decreases with an increase in the structural damping ratio, and is insensitive to the wind load amplitude within a certain range, implying that the TLD has a stable damping performance over a range of wind speed variations.

MR 댐퍼를 적용한 불안정판에서 하지 근력 훈련이 근 활성도에 미치는 영향 분석 (Analysis on the Effects of the Lower Extremities Muscle Activation during Muscular Strength Training on an Unstable Platform with Magneto-Rheological Dampers)

  • 최윤정;박용군;권대규;김동욱;김정자;김남균
    • 대한의용생체공학회:의공학회지
    • /
    • 제28권5호
    • /
    • pp.636-646
    • /
    • 2007
  • Adequate postural control depends on the spatial and temporal integration of vestibular, visual, and somatosensory information. Especially, the musculoskeletal function is essential to maintain the postural control. The experimental studies was performed on the muscular activities in the lower extremities during maintaining and moving exercises on an unstable platform with Magneto Rheological(MR) dampers. The unstable platform of the developed system was controlled by electric currents to the MR dampers. A subject executed the maintaining and moving exercises which are presented through the display monitor. The electromyographies of the eight muscles in lower extremities were recorded and analyzed in the time and the frequency domain: the muscles of interest were rectus femoris(RF), biceps femoris(BF), tensor fasciae latae(TFL), vastus lateralis(VL), vastus medialis(VM), gastrocnemius(Ga), tibialis anterior(TA), Soleus(So). The experimental results showed that the muscular activities differed in the four moving exercises and the nine maintaining exercises. For the anterior-posterior pattern, the TA showed highest activities; for the left-right pattern, the TFL; for the 45, $-45^{\circ}$ pattern, the TFL and TA. Also, the rate of the increase in the muscular activities were affected by the condition of the unstable platform with MR dampers for the maintaining and moving exercises. The experimental results suggest that the choice of different maintaining and moving exercises could selectively train different muscles in various intensity. Futhermore, the findings suggested that the training using this system can improve the ability of postural control.

고무 부싱의 주파수 의존 복소 강성을 고려한 차량 현가 장치에서의 전달력 분석 (Consideration of Frequency Dependent Complex Stiffness of Rubber Busings in Transmission Force Analysis of a Vehicle Suspension System)

  • 이준화;김광준
    • 한국소음진동공학회:학술대회논문집
    • /
    • 한국소음진동공학회 1998년도 춘계학술대회논문집; 용평리조트 타워콘도, 21-22 May 1998
    • /
    • pp.34-39
    • /
    • 1998
  • In order to compute the forces which are transmitted through rubber bushings with a commercial multibody dynamic analysis (MBDA) program, a rubber bushing model is needed. The rubber bushing model of MBDA programs such as DADS or ADAMS is the Voigt model which is simply a parallel spring-viscous damper system, meaning that the damping force of the Voigt model is proportional to the frequency. However, experiments do not necessarily support this proportionality. Alternatively, the viscoelastic characteristics of rubber bushings can be better represented by the complex stiffness. The purpose of this paper is to develop a viscoelastic rubber bushing model for the MBDA programs. Firstly, a methodology is proposed to calculate the complex stiffness of rubber bushings considering static and dynamic load conditions. Secondly, a viscoelastic rubber bushing model developed which uses standard elements provided by DADS. The proposed methods are applied to the rubber bushings of the lower control arms of a rear suspension of a 1994 Ford Taurus model. Then, the forces computed for the rubber bushing model are analyzed and compared with the Voigt model in time and frequency domains.

  • PDF

Reduced-mass Adaptive TMD for Tall Buildings Damping

  • Weber, Felix;Huber, Peter;Spensberger, Simon;Distl, Johann;Braun, Christian
    • 국제초고층학회논문집
    • /
    • 제8권2호
    • /
    • pp.117-123
    • /
    • 2019
  • Tall buildings are prone to wind-induced vibrations due to their slenderness whereby peak structural accelerations may be higher than the recommended maximum value. The common countermeasure is the installation of a tuned mass damper (TMD) near the highest occupied floor. Due to the extremely large modal mass of tall buildings and because of the narrow to broad band type of wind excitation the TMD mass may become inacceptable large - in extreme cases up to 2000 metric tons. It is therefore a need to develop more efficient TMD concepts which provide the same damping to the building but with reduced mass. The adaptive TMD concept described in this paper represents a solution to this problem. Frequency and damping of the adaptive TMD are controlled in real-time by semi-active oil dampers according to the actual structural acceleration. The resulting enhanced TMD efficiency allows reducing its mass by up to 20% compared to the classical passive TMD. The adaptive TMD system is fully fail-safe thanks to a smart valve system of the semi-active oil dampers. In contrast to active TMD solutions the adaptive TMD is unconditionally stable and its power consumption on the order of 1 kW is negligible small as controllable oil dampers are semi-active devices. The adaptive TMD with reduced mass, stable behavior and lowest power consumption is therefore a preferable and cost saving damping tool for tall buildings.

Design and calibration of a semi-active control logic to mitigate structural vibrations in wind turbines

  • Caterino, Nicola;Georgakis, Christos T.;Spizzuoco, Mariacristina;Occhiuzzi, Antonio
    • Smart Structures and Systems
    • /
    • 제18권1호
    • /
    • pp.75-92
    • /
    • 2016
  • The design of a semi-active (SA) control system addressed to mitigate wind induced structural demand to high wind turbine towers is discussed herein. Actually, the remarkable growth in height of wind turbines in the last decades, for a higher production of electricity, makes this issue pressing than ever. The main objective is limiting bending moment demand by relaxing the base restraint, without increasing the top displacement, so reducing the incidence of harmful "p-delta" effects. A variable restraint at the base, able to modify in real time its mechanical properties according to the instantaneous response of the tower, is proposed. It is made of a smooth hinge with additional elastic stiffness and variable damping respectively given by springs and SA magnetorheological (MR) dampers installed in parallel. The idea has been physically realized at the Denmark Technical University where a 1/20 scale model of a real, one hundred meters tall wind turbine has been assumed as case study for shaking table tests. A special control algorithm has been purposely designed to drive MR dampers. Starting from the results of preliminary laboratory tests, a finite element model of such structure has been calibrated so as to develop several numerical simulations addressed to calibrate the controller, i.e., to achieve as much as possible different, even conflicting, structural goals. The results are definitely encouraging, since the best configuration of the controller leaded to about 80% of reduction of base stress, as well as to about 30% of reduction of top displacement in respect to the fixed base case.

Retrofitting of a weaker building by coupling it to an adjacent stronger building using MR dampers

  • Abdeddaim, Mahdi;Ounis, Abdelhafid;Shrimali, Mahendra K.;Datta, Tushar K.
    • Structural Engineering and Mechanics
    • /
    • 제62권2호
    • /
    • pp.197-208
    • /
    • 2017
  • Among various retrofitting strategies, use of semi-active control for retrofitting a building structure has gained momentum in recent years. One of the techniques for such retrofitting is to connect a weaker building to an adjacent stronger building by semi-active devices, so that performances of a weaker building are significantly improved for seismic forces. In this paper, a ten storey weaker building is connected to an adjacent stronger building using magneto-rheological (MR) dampers, for primarily improving the performance of the weaker building in terms of displacement, drift and base shear. For this, a fuzzy logic controller is specifically developed by fuzzyfying the responses of the coupled system. The performance of the control strategy is compared with the passive-on and passive-off controls. Pounding Mitigation between the two buildings is also investigated using all three control strategies. The results show that there exists a fundamental frequency ratio between the two buildings for which maximum control of the weaker building response takes place with no penalty on the stronger building. There exists also a fundamental frequency ratio where control of the weaker building response is achieved at the expense of the amplification of the stronger building. However, coupling strategy always improves the possibility of pounding mitigation.