应用气象学报
應用氣象學報
응용기상학보
QUARTERLY JOURNAL OF APPLIED METEOROLOGY
2014年
6期
711-721
,共11页
王振会%李青%楚艳丽%朱雅毓
王振會%李青%楚豔麗%硃雅毓
왕진회%리청%초염려%주아육
地基微波辐射计%K波段亮温观测订正%天线性能%工作环境
地基微波輻射計%K波段亮溫觀測訂正%天線性能%工作環境
지기미파복사계%K파단량온관측정정%천선성능%공작배경
ground-based microwave radiometer%K-band brightness temperature correction%antenna speci-fications%operating environment interference
该文研究地基微波辐射计天线性能及其工作环境对K波段20~30 GHz亮温观测数据的影响,根据辐射传输理论和天线性能参数分析建立模型,通过模拟计算给出辐射计20~30 GHz 波段亮温观测对天线性能及其工作环境的响应,提出针对工作环境温度变化影响的订正方案,并结合观测资料进行分析验证。结果表明:如果辐射计天线增益和3 dB波束宽度决定的等效主波束效率ηe 较低,则即使在能够经常进行辐射计系统液氮定标的情况下也必须考虑天线工作环境(环境温度与辐射计定标时的情景差异)对K 波段亮温观测的影响。对某一辐射计液氮定标后1年多观测资料的订正验证表明:订正效果明显,尤其是在28.0 GHz和30.0 GHz两通道。
該文研究地基微波輻射計天線性能及其工作環境對K波段20~30 GHz亮溫觀測數據的影響,根據輻射傳輸理論和天線性能參數分析建立模型,通過模擬計算給齣輻射計20~30 GHz 波段亮溫觀測對天線性能及其工作環境的響應,提齣針對工作環境溫度變化影響的訂正方案,併結閤觀測資料進行分析驗證。結果錶明:如果輻射計天線增益和3 dB波束寬度決定的等效主波束效率ηe 較低,則即使在能夠經常進行輻射計繫統液氮定標的情況下也必鬚攷慮天線工作環境(環境溫度與輻射計定標時的情景差異)對K 波段亮溫觀測的影響。對某一輻射計液氮定標後1年多觀測資料的訂正驗證錶明:訂正效果明顯,尤其是在28.0 GHz和30.0 GHz兩通道。
해문연구지기미파복사계천선성능급기공작배경대K파단20~30 GHz량온관측수거적영향,근거복사전수이론화천선성능삼수분석건립모형,통과모의계산급출복사계20~30 GHz 파단량온관측대천선성능급기공작배경적향응,제출침대공작배경온도변화영향적정정방안,병결합관측자료진행분석험증。결과표명:여과복사계천선증익화3 dB파속관도결정적등효주파속효솔ηe 교저,칙즉사재능구경상진행복사계계통액담정표적정황하야필수고필천선공작배경(배경온도여복사계정표시적정경차이)대K 파단량온관측적영향。대모일복사계액담정표후1년다관측자료적정정험증표명:정정효과명현,우기시재28.0 GHz화30.0 GHz량통도。
Effects of operating environment thermal radiation interference on atmospheric brightness temperature measurement with ground-based K-band microwave radiometer especially for channels near 28.0 GHz and 30.0 GHz are studied.A model for simulating antenna temperature which expresses the energy received by the radiometer based on radiative transfer is derived and used to calculate the response of the brightness temperature measurements to parameters such as antenna specifications,radome,surrounding temperature and emissivity.Results show that the equivalent main beam efficiency (ηe )defined by 3 dB points is only 73.17% for a typical antenna,of which the half-beam half widthα= 3.1°and the gain G= 30 dB.The val-ue ofηe would be even smaller if factors like aperture radiation effect,shape-error,and occlusion and so on are taken into account.The brightness temperature would fluctuate by 4.0 K in case thatηe= 70%,the surrounding temperature and emissivity would change byΔTg= 10 K andΔε= 0.05 around Tg= 280 K andε= 0.85 if the radome can be neglected.The fluctuation would increase up to 9.6 K if the size of the open-ing in the radome is just for the main beam.Therefore,if the equivalent main beam efficiency determined by the antenna gain and 3-dB beam width for the current radiometer system is not large enough,variation of the operating environment must be taken into account during the correction of K-band brightness tem-perature measurement even though LN calibration of the radiometer system can be performed as manual-re-quired.For this,a brightness temperature correction method for operating environment variation is sug-gested according to the theoretical relationship and the result from application to observations.Over one year application after LN calibration shows that the fitness and correlation between the observed brightness temperature after correction and the calculated brightness temperature with radiative transfer equation is obviously better than before,especially for channels of 28 GHz and 30 GHz.
