Fan Speed and Drives | ScienceGate

In this paper, we study the wind and solar hybrid lamps testing system which is based on wireless communication design. The collected data will be calculated. The paper analyses six typical points to research the solar energy, wind energy to the battery energy conversion. Moreover, the paper also analyses the scenery energy and fan speed data for four seasons, providing scientific basis for eco-city management analysis of local natural resources utilization.

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Research on Control Strategy of Hydro-Viscous Driven Fan Cooling System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.722.182 ◽

2014 ◽

Vol 722 ◽

pp. 182-189

Author(s):

Li Gang Ma ◽

Chang Le Xiang ◽

Tian Gang Zou ◽

Fei Hong Mao

Keyword(s):

Control Strategy ◽

Cooling System ◽

Fuzzy Pid ◽

Loop Control ◽

Speed Regulation ◽

Temperature Feedback ◽

Loop Control System ◽

System Temperature ◽

Fan Cooling ◽

Fan Speed

The paper proposes a cascade control strategy of speed feedback in inner loop and temperature feedback in outer ring for hydro-viscous driven fan cooling system, and compares the simulation of PID and fuzzy PID. The simulation result shows that the double-loop control system while the response time longer, but much smaller overshoot, can achieve a good feedback to adjust the fan speed and temperature and realize stepless speed regulation of hydro-viscous driven fan cooling system under the premise of stability for fan speed and system temperature.

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Exhaust Fan Speed Controller Using Fuzzy Logic Controller

Journal of Physics Conference Series ◽

10.1088/1742-6596/1737/1/012046 ◽

2021 ◽

Vol 1737 (1) ◽

pp. 012046

Author(s):

M Khairudin ◽

Sigit Yatmono ◽

Irdayanti M Nashir ◽

Fatchul Arifin ◽

W Aulia ◽

...

Keyword(s):

Fuzzy Logic ◽

Fuzzy Logic Controller ◽

Speed Controller ◽

Fan Speed

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Lumped Parameter Modeling of a Magnetorheological Fluid Clutch

Dynamic Systems and Control, Parts A and B ◽

10.1115/imece2006-13225 ◽

2006 ◽

Author(s):

John C. Ulicny ◽

Daniel J. Klingenberg ◽

Anthony L. Smith ◽

Zongxuan Sun

Keyword(s):

Mathematical Model ◽

Physical Properties ◽

Magnetorheological Fluid ◽

Input Current ◽

Fluid Composition ◽

Fluid Temperature ◽

Temperature Range ◽

Lumped Parameter ◽

Lumped Parameter Modeling ◽

Fan Speed

A lumped-parameter mathematical model of an automotive magnetorheological (MR) fluid fan clutch was developed. This model is able to describe the average fluid temperature, average clutch temperature, and output fan speed as a function of time, input current, and fluid composition. The model also reproduces numerous features of fan operation observed experimentally and revealed a mechanism for some observed cases of hysteresis. However, it fails to capture certain other features which lead us to conclude that phenomena which are not included in the model, e.g., sedimentation and re-suspension, are important to the clutch behavior. In addition, the results indicate that certain physical properties need to be measured over a larger temperature range in order for the model to better predict the clutch behavior.

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Modeling of Vapor Compression Cycles for Multivariable Feedback Control of HVAC Systems

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.2801231 ◽

1997 ◽

Vol 119 (2) ◽

pp. 183-191 ◽

Cited By ~ 97

Author(s):

Xiang-Dong He ◽

Sheng Liu ◽

Haruhiko H. Asada

Keyword(s):

Feedback Control ◽

Phase Interface ◽

Heat Pumps ◽

Lumped Parameter Model ◽

Vapor Compression ◽

Two Phase ◽

Lumped Parameter ◽

Fan Speed ◽

Linearized Model ◽

Multivariable Feedback

This paper presents a new lumped-parameter model for describing the dynamics of vapor compression cycles. In particular, the dynamics associated with the two heat exchangers, i.e., the evaporator and the condenser, are modeled based on a moving-interface approach by which the position of the two-phase/single-phase interface inside the one-dimensional heat exchanger can be properly predicted. This interface information has never been included in previous lumped-parameter models developed for control design purpose, although it is essential in predicting the refrigerant superheat or subcool value. This model relates critical performance outputs, such as evaporating pressure, condensing pressure, and the refrigerant superheat, to actuating inputs including compressor speed, fan speed, and expansion valve opening. The dominating dynamic characteristics of the cycle around an operating point is studied based on the linearized model. From the resultant transfer function matrix, an interaction measure based on the Relative Gain Array reveals strong cross-couplings between various input-output pairs, and therefore indicates the inadequacy of independent SISO control techniques. In view of regulating multiple performance outputs in modern heat pumps and air-conditioning systems, this model is highly useful for design of multivariable feedback control.

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Design on Parameterized Drafting System of Centrifugal Fan

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.34-35.192 ◽

2010 ◽

Vol 34-35 ◽

pp. 192-196

Author(s):

Jiang Zhu ◽

Limin Chen ◽

Ping Yuan Xi

Keyword(s):

Aerodynamic Force ◽

Geometric Parameters ◽

Rapid Response ◽

Design Parameters ◽

Centrifugal Fan ◽

Aerodynamic Design ◽

Key Factors ◽

Fan Speed ◽

Force Calculation

The impeller is the important pneumatic part of centrifugal fan, and its structure performances are key factors which affect the whole performances of fan. The CAD module of centrifugal fan can realize the automation of aerodynamic force calculation. According to demands, computer can automatically complete aerodynamic force calculation and further determine major geometric parameters of impeller of fan. Speed coefficient and diametral quotient are two important parameters reflecting the character of ventilating fan. The relation curve between the speed coefficient and diametral quotient of various fans is plotted in this paper. The CAD module of impeller of centrifugal fan can realize such functions as aerodynamic design and parameterization drawing of impeller, and can accomplish rapid response from receiving design parameters to profiled impeller of fan, so that it can improve the quality of drawing.

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Setting Outside Air, Checking Economizer Operation, And Changing Fan Speed and Drive Components

Testing and Balancing HVAC Air and Water Systems ◽

10.1201/9781003153207-8 ◽

2020 ◽

pp. 87-96

Author(s):

Samuel C. Sugarman

Keyword(s):

Fan Speed

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Design of Smoke Alarm Disperser Based on Single-chip Microcomputer

Journal of Physics Conference Series ◽

10.1088/1742-6596/2113/1/012057 ◽

2021 ◽

Vol 2113 (1) ◽

pp. 012057

Author(s):

Yang Wang ◽

Lichun Han ◽

Yonghui Zhao ◽

Yuquan Xue ◽

Liming Wang

Keyword(s):

Safety Management ◽

Rapid Development ◽

Digital Signal ◽

Single Chip ◽

Smoke Alarm ◽

Single Chip Microcomputer ◽

Linear Change ◽

Working Environments ◽

Fan Speed ◽

Smoke Sensor

Abstract With the rapid development of society and economy, various laboratories have become more complete in number and equipment, but subsequent laboratory accidents frequently occur. Therefore, it is imperative to construct a laboratory safety management system to ensure the safety of laboratory personnel and complete equipment. This article intends to design a smoke alarm, which mainly includes measuring the sensitivity of the smoke sensor to the concentration of smoke in the air, and the linear change of the sensor converting the corresponding analog signal into a digital signal. By designing the fan speed to be controlled by the change of smoke density, the speed of the motor is adjusted. And the alarm module can sound an alarm when the smoke concentration is certain, and at the same time, it can automatically cancel the alarm when the smoke concentration decreases. Finally, a simulation experiment is designed to simulate the effect of the sound alarm of the smoke alarm disperser on the dispersal of smoke under different working environments.

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Rancang Bangun Farming Box Dengan Pengaturan Suhu Menggunakan Fuzzy Logic Controller

ELKHA ◽

10.26418/elkha.v12i2.41196 ◽

2020 ◽

Vol 12 (2) ◽

pp. 92

Author(s):

Riza Agung Firmansyah ◽

Dani Junianto

Keyword(s):

Fuzzy Logic ◽

Steady State ◽

Air Temperature ◽

Temperature Control ◽

Fuzzy Logic Controller ◽

Pulse Width Modulation ◽

Data Feedback ◽

Shipping Containers ◽

Fan Speed ◽

State Error

Implementation of control systems has been carried out in many fields of science. One of it applications is in the agriculture fields. In this research we implemented a control system on farming in a box. Farming in a box is a system that uses old shipping containers for the purpose of growing plants in any environment. Inside shipping containers is fully assembled hydroponic pipe with air temperature control. In this research was built a little farming box from acryclic to imitate a shipping container. Main focus of this research is design an air temperature control using fuzzy logic controller. Fuzzy logic controller was choosen because many existing farming box use on off controller. In some application, fuzzy logic controller has better performance than on off controller. Farming box temperature is controlled by blowing cool air using an electric fan. In this case, cool air is produced by cold side of peltier. Electric fan speed is controlled by pulse width modulation signal (PWM) that generated from microcontroller. Air temperature data feedback is obtained from DHT 11 sensor that installed in a acrylic box. Sensor is physically connected with microcontroller and Fuzzy logic controller is embedded in microcontroller as an algorithm. Fuzzy logic controller was design with error temperature and error difference as an input, and duty cycle of PWM signal as output. Fuzzy logic controller system performs to reduce the temperature from 31,6 ° C to set poin 28° C in 71 seconds. Steady state error obtained by 1.28% and better than uncontrolled system that obtain steady state error 7,14%.

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