• 제목/요약/키워드: KC-1 membrane LNG tank

검색결과 2건 처리시간 0.014초

KC-1 Membrane LNG 탱크 단열시스템의 열해석에 관한 연구 (Thermal Analysis of Insulation System for KC-1 Membrane LNG Tank)

  • 정현원;김태현;김석순;심재우
    • 한국해양공학회지
    • /
    • 제31권2호
    • /
    • pp.91-102
    • /
    • 2017
  • Recently, a new type of LNG membrane Tank called the "KC-1 membrane LNG Tank" was developed by KOGAS (Korean Gas Corporation). It is necessary to estimate the temperature distribution of the hull structure and insulation system for this new LNG tank, as well as the BOR (Boil-Off Rate) when exposed to outside temperature conditions to ensure the integrity of the tank structure and limit LNG evaporation, from a safety evaluation point of view. In this study, temperature distribution calculations for the hull structure and insulation system of the KC1 membrane tank were compared by employing four numerical approaches under the IGC condition. Approaches 1-3 studied 2D simulations and approach 4 used a 3D numerical simulation. Approach 1 was calculated by in-house Excel VBA codes and the three other approaches utilized ANSYS Fluent. The BOR of approach 4, the 3D simulation case, for the IGC condition was 0.0986%/day.

열저항 네트워크 모델을 이용한 LNG 화물창 Scale Effect 분석 (Scale Effect Analysis of LNG Cargo Containment System Using a Thermal Resistance Network Model)

  • 유화롱;김태훈;김창현;김민창;김명배;한용식;듀이;정경열;최병일;도규형
    • 대한조선학회논문집
    • /
    • 제60권4호
    • /
    • pp.222-230
    • /
    • 2023
  • In the present work, the scale effect on the Boil-Off Rate (BOR) was investigated based on an analytical method to systematically evaluate the thermal performance of a Liquefied Natural Gas (LNG) Cargo Containment System (CCS). A two-dimensional thermal resistance network model was developed to accurately estimate the heat ingress into the CCS from the outside. The analysis was performed for the KC-1 LNG membrane tank under the IGC and USCG design conditions. The ballast compartment of both the LNG tank and cofferdam was divided into six sections and a thermal resistance network model was made for each section. To check the validity of the developed model, the analysis results were compared with those from existing literature. It was shown that the BOR values under the IGC and USCG design conditions were agreed well with previous numerical results with a maximum error of 1.03% and 0.60%, respectively. A SDR, the scale factor of the LNG CCS was introduced and the BOR, air temperature of the ballast compartment, and the surface temperature of the inner hull were obtained to examine the influence of the SDR on the thermal performance. Finally, a correlation for the BOR was proposed, which could be expressed as a simple formula inversely proportional to the SDR. The proposed correlation could be utilized for predicting the BOR of a full-scale LNG tank based on the BOR measurement data of lab-scale model tanks.