The purpose of this study is to analyze the distribution characteristics of mist spray particle size by devising a rotary mist spraying device to develop the evaporative salt water desalination system. The rotary mist spraying device was consisted of a BLDC sirocco fan, a spinning fan, a fan fixed shaft and a salt water supply device etc. In this study we analyzed the characteristics of spray particle size and distribution according to the variation of sirocco fan surface roughness(Ra, μm), revolutions(rpm) and salt water flow rate(mL/min). When sirocco fan surface roughness( Ra) was in the range of 0.27~7.65 μm, the spray particle size was 0.117~1.360 μm. And then more than 90% of spray particles were found to be less than 0.50 μm. When sirocco fan surface roughness(Ra) was in the range of 12.70~22.84 μm, the spray particle size was 2.51~184.79 μm and more than 98% of spray particles were found to be less than 13.59 μm. To analyze the effect of fan rotation speed on the size and distribution of spray particles, when surface roughness Ra was fixed 0.27 μm and fan rotation speed and salt water flow rate was respectively changed at 3,800~5,600 rpm and 2.77~8.28 mL/min, spray particle size was 0.341~0.541 μm. And when salt water flow rate was 9.74 mL/min and fan rotation speed was 3,800~5,200 rpm, spray particle size was in the range of 29.29~341.46 μm and in case of 5,600 rpm more than 98.23% of spray particles were in the range of 2.51~13.59 μm.

In order to apply rotary atomizer to agricultural spraying system, the motor direct coupled rotary atomizer was proposed. The effect of operating conditions such as atomizing air flow rate, working fluid flow rate, and rotation speed of spinning cup on the atomization performance was investigated for the proposed direct coupled rotary atomizer. The motor speed was controlled in the range of 6,000 to 12,000 rpm using an alternating current transformer, and the atomizing air was supplied by the compressor. In this study, LDPA was used to analyze the spray characteristics of the rotary atomizer. The representative particle diameters of D10, SMD, MMD, D90, and DMax tended to decrease as the atomizing air flow rate and the motor speed increased, but increased as the working fluid flow rate increased. Also, SMD was found to be influenced by order of atomizing air flow rate> motor speed> working fluid flow rate, and DMax was influenced by order of operating fluid supply> motor speed> atomizing air flow rate.

The current disinfection method of vehicles being applied in South Korea has various shortcomings. So, the epidemic has generated continuously at livestock farms. It is very important to develop an effective disinfection system for reduction of the epidemic. And various basic data is required for this development. Therefore, this study was performed to identify the nozzle type and proper discharge pressure of sprayers. The experiment was conducted from January 10, 2012 until February 28, 2012. All the performance measurement experiments were repeated five times. The subjects of experiment were the A, B and C company’s products. The sprayed capacity, angle of spray and the covering area ratio were measured for each product. As a result, the sprayed capacity, angle of spray and the covering area ratio were increased as the discharge pressure of the sprayer was increased. In conclusion, the conical shaped of the nozzle is considered more appropriate than V-shaped, and the proper discharge pressure is expected to be at least 20kg/cm2.

여름철 고온기 온실 내 효율적 증발냉방을 위하여 다량 포그 분무가 가능하고 설치비용이 저렴하도록 한 터보팬 2류체 노즐로 포그 분무장치를 구성하고 소형 유리온실에 2.2 m 높이로 설치하여 냉방시험을 실시하였다. 이 장치의 분무시험 결과 평균분무입경이 29 ㎛이고 1대당 포그 분무량은 160 ㎖/min로 비산반경 2 m이내에서 입자들이 모두 증발하는 것으로 나타났다. 이 장치를 평면적 228 ㎡인 단동 유리온실에 2대를 설치하여 냉방실험한 결과, 외기의 온도 30.2℃, 상대습도 81.2%인 때 온실 내 공기의 온도 28.8℃, 상대습도 87.5%의 낮은 냉각효과를 나타내었다. 문헌 조사와 냉방실험 결과로부터 여름철 우리나라 남부지역의 외기온 35℃를 기준으로 단동온실은 50% 차광에서 증발냉각에 의해 온실 내 공기온도를 외기온보다 2∼3℃ 낮추려면 환기회수 1회/분, 물분무량은 10 ㎖/min/㎡인 것으로 추정되었다.

Flow and heat transfer characteristics of gas, and trajectories and cooling characteristics of droplets/particles in a gas atomizer were investigated by a numerical simulation using FLUENT code. Among several kinds of solution method, the k- turbulent model, power-law scheme, SIMPLE algorithm is adopted in this study. Momentum and heat exchange between a continuous phase(gas) and a dispersed phase(particle) were taken into account. Particle trajectories are simulated using the Lagrangian method, and Rosin-Rammler formula is used for the particle size distribution. Streamlines, velocities and pressures of gas, and trajectories, velocities and cooling rates of particles have been investigated for the various gas inlet conditions. Small but very intensive recirculation is found just below the melt orifice, and this recirculation seems to cause the liquid metal to spread radially. Particle trajectory depends on the particle size, the location of particle formation and the turbulent motion of gas. Small particle cools down rapidly, while large diameter particles solidify slowly, and this is mainly due to the differences in thermal inertia.

전자식전발분사노즐로 급속압축장치 내에서 실현한 축대칭 자유분무.화염에 고속도 사진의 화상해석을 적용하여 다음과 같은 결론을 얻었다. 1. 고속도 사진의 화상해석에 의해 구한 디이젤분무의 축방향의 연료농도분포는 분무의 선단부를 제외하면 준정상이론에 의한 분포와 정성적으로 일치한다. 2. 화염중심축방향의 그을음 농도는 연과의 농도가 비교적 낮은 분무의 선단부에서 높은 농도를 나타내며, 그 농도는 거의 분사종료시에 최대로 되어, 그 후 시간경과에 따라 저하한다. 3. 양파모델을 축대칭 분무.화염에 적용하여 분무.화염내부의 반경방향의 그을음 농도와 연료농도분포를 비교해 보면 그을음 농도의 가장 높은 부분은 연료농도가 가장 높은 중심부보다 화염반경의 2/3의 위치에서 최대로 되었다