In the present numerical research, develop a high-efficiency fan model to improve the performance of the cooling fan, which accounts for a lot of weight in the efficiency of the cooling tower. For this purpose, analyze the shape of the existing cooling fan model and use CFD. The main variable set in the analysis of the cooling fan model is the pitch angle, and the range of the pitch angle was investigated in the range of 0° to 20°. The purpose of this research is to select the optimum driving condition by using CFD for setting the pitch angle that depends on the existing experience. The research results showed the best results when the pitch angle range was 15°~18°.
The result of the previous work leads to the idea that the inner area of the hyperbolic shell generator should be minimized for the cooling tower with higher first natural frequency. In this study the inner area of the hyperbolic shell generator was graphically established under varying height of the throat and angle of the base lintel. From the graph, several shell geometries were selected and analysed in the aspect of the natural frequency. Three representative towers reinforced differently due to different first natural frequencies were analysed non-linearly and evaluated using a damage indicator based on the change of natural frequencies. The results demonstrated that the damage behaviour of the tower reinforced higher due to a lower first natural frequency was not necessarily advantageous than the others
Determining of the shape in the process of design for natural draught cooling tower is very important, because the shape of hyperbolic shell is respond sensitively to dynamic behavior of the whole cooling tower against wind load. In engineering practice, the geometric parameters have been determining based on the natural frequency. This study analyses influence of the tower shell geometric parameters on the structural behavior. For three representative models were selected, they were analyzed based on evaluation of damage by means of nonlinear FE-method. As a result, a hyperbolic rotational shell with the small radius overall was the lowest damage index induced by sufficient capacity of the stress redistribution and thus a wind-insensitive structure.
Cooling towers have been widely applied to control the indoor temperature in the residential area and the living space. At operating the cooling towers, motor, fan and dropping water produce noise and vibration, which diffuse through the air or the solid object, polluting the environment. The standards can be used at estimating noise and vibration emission by showing remarkable economic or social benefits. The purpose of this study is to show the characteristics, measurement methods for the evaluation of noise and vibration in cooling tower.
하이퍼볼릭 쉘로 구성된 냉각탑에서 쉘의 형상은 풍하중에 대하여 냉각탑 전체의 동적 거동에 민감하게 응답한다. 이에 따라 냉각탑 설계 시 기하형상의 결정은 매우 중요하며 일반적으로 고유진동수를 기반으로 하여 산정한다. 본 연구의 목적은 냉각탑 쉘의 구조적 거동에서 형상변수가 미치는 영향을 파악하고자 한다. 기존의 냉각탑 형상변수를 변화시켜 32개의 모델을 선정하였고 이를 1차 고유진동수를 기반으로 하여 분석한 후, 3개의 대표적인 형상을 선택하여 선형 해석을 수행하였다. 그 결과, 전체적으로 작은 반지름을 가지는 기하형상이 높은 1차 고유진동수를 나타내고 풍하중에 대하여 덜 민감한 시스템이 되는 것을 알 수 있었다.
철근콘크리트 냉각탑은 대형의 구조물로서 건설과정중의 오류와 콘크리트의 장기 거동에 의하여 기하학적 형상이 설계에서 목적하는 형상에서 벗어난 형상불완전을 가질 수 있다. 형상불완전의 구조거동에의 영향은 완전쉘에 나타나는 응력 이외에 추가적인 응력의 발생을 들 수 있다. 본 논문에서는 몬테카를로 방법을 사용하여 냉각탑 쉘의 형상불완전에 의한 확률론적 거동에 대하여 고찰하였다. 냉각탑에 형상불완전을 유발하는 기하인수로는 냉각탑의 반지름과 쉘의 두께를 택하였다. 이들 기하인수는 기존에 사용되던 모델인 축대칭 모델과 볼록형상의 모델과는 달리 특정 통계특성치를 가지는 추계장으로 가정하였다. 해석 결과는 냉각탑의 반지름에 나타나는 불확실성은 쉘의 두께에서의 불확실성보다 구조거동의 반응변화도에 매우 큰 영향을 미친다는 사실을 보여주었다. 기하학적 인수의 불확실성에 더하여 재료탄성계수의 공간적 불확실성에 의한 구조 반응변화도를 고찰하여 비교하였다.
The shell of form-finding is most important in design procedure of the cooling tower, because the shape of the shell determines the sensitivity of dynamic behavior of the whole tower against wind excitation. The purpose of the study is the investigation of the influences of the geometric parameters of the cooling tower shell on the structural behavior. As a result, a hyperbolic rotational shell with the small radius overall will yield the shell geometry with a higher first natural frequency and thus a wind-insensitive structure. Linearly and nonlinearly numerical analysis are demonstrated influence of the shell-geometric parameters on structural behaviours. The results of this study may be informative for the form-finding of the cooling tower shell.
This study was carried out to evaluate the effect of water quality of cooling tower on Legionella pneumophila disinfection using Ru/Ti electrode. The influences of parameters such as pH, turbidity, CaCO₃ and TOC were investigated using laboratory scale batch reactor. Oxidants such as free Cl, ClO₂, H₂O₂ and O₃ were measured. The results showed that all of the water quality parameters of cooling tower had deteriorated disinfection of Legionella pneumophila. When the turbidity, CaCO₃ and TOC was increased, oxidants which was generated during electrolysis was decreased. pH, free Cl, ClO₂ and H₂O₂ concentration were decreased with the increase of pH, whereas O₃ concentration was increased with the increase of pH. The order of effect of water quality on the disinfection performance for Legionella pneumophila was turbidity > CaCO₃ > TOC > pH. To obtain the safety standard (1000 CFU/L), the simultaneous increase current and NaCl dosage was needed.