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전열교환 환기장치의 효율 차이에 따른 결로 발생 빈도 및 결로 방지용 예열코일용량 분석
고진영(Jinyoung Ko),정재원(Jae-Weon Jeong) 대한설비공학회 2020 설비공학 논문집 Vol.32 No.3
The purpose of this study was to compare the number of condensation occurrences and the required pre-heat coil capacity according to type of energy recovery ventilator (ERV) and the difference of latent effectiveness in the ERVs. Because of revised ventilation regulations, buildings in Korea have been required to install mechanical ventilation systems. As the rotary type ERV (enthalpy wheel) has better latent effectiveness than that of the plate type ERV, the latent effectiveness difference between two types shows different condensation occurrences that would result in performance degradation. The enthalpy wheel with 80% of sensible and latent effectiveness indicated 99% less condensation occurrences and was required to install 89% smaller capacity of the pre-heat coil than that of the ERV with 80% of sensible and 30% of latent effectiveness during winter. Additionally, ERVs with low latent effectiveness cause more condensation under low room temperature in summer. Thus, installation of the enthalpy wheel rather than the plate type ERV would prevent the occurrences of condensation and reduce the need of a pre-heat coil with huge capacity.
Aquathermolysis 반응에 의한 감압잔사유의 개질
고진영 ( Jin Young Ko ),박동호 ( Dong Ho Park ),박승규 ( Seung-kyu Park ) 한국공업화학회 2017 공업화학 Vol.28 No.4
본 연구에서는 aquathermolysis 반응을 이용하여 감압잔사유(VR)의 개질 반응을 실시하였다. 감압잔사유는 30 bar, 300℃ 이상에서 24 h 동안 수증기(steam)와 반응하면, 구성성분 중에서 레진류와 아스팔텐류가 감소하고, 포화탄화수소류(saturates)나 방향족탄화수소류(aromatics)가 증가하는 경향을 보였다. 이러한 경향은 수증기(steam)량이 감압잔사유와 동일 중량부 이상으로 과량 사용 시 더 확연하였다. 300 ℃, 30 bar 이상에서 48 h 반응하는 경우 VR 조성물은 초기상태(S/A/R/A = 7.3%/43.7%/25.6%/23.5%)에서 최종상태(S/A/R/A = 6.8%/57%/12.2% /24.0%)로 레진류의 함량이 전체에서 13% 정도 감소하고 방향족화합물들은 13% 정도 증가하였다. 이때 점도는 880,000 cp에서 290,000 cp로 68% 정도 감소하였다. 수소를 제공하기 쉬운 데칼린(decalin)을 10% 첨가하는 경우 24 h에 점도가 68% 정도 감소하였고, VR 조성물은 초기상태(S/A/R/A = 7.3%/43.7%/25.6% /23.5%)에서 최종상태(S/A/R/A = 4.5%/63.5%/12.5%/20.0%)로 레진류 및 아스팔텐의 함량이 49%에서 17%가 감소하였고, 방향족 화합물의 함량이 63.5%로 극대화되었다. Aquathermolysis 반응으로 형성된 기체층을 포집하여 GC-MS spectroscopy로 분석한 결과 에틸벤젠, 옥탄, 디메틸벤젠 등 다양한 탄화수소 화합물들이 검출됨을 확인하였다. In this study, the reforming reaction of vacuum residue (VR) was carried out using aquathermolysis reaction. VR showed a prone to decrease the amount of resins and asphaltenes in the constituents, and to increase saturates and aromatics when reacting with steam at 30 bar and above 300 ℃ for 24 h. This tendency became more evident when the amount of steam used was excessive than the amount of VR. When the aquathermolysis reaction was performed at 300 ℃ and 30 bar for 48 h, the VR composition was changed from the initial state (S/A/R/A = 7.3%/43.7%/25.6%/23.5%) to final state (S/A/R/A = 6.8%/57%/12.2%/24.0%), and the contents of the resins decreased by 13% and the aromatic compounds increased by 13%. The viscosity decreased from 880,000 cp to 290,000 cp by 68%. When 10% of decalin, which is easy to provide hydrogen, was added, the viscosity decreased by 68% in 24 h. The VR composition showed a reduction in the contents of resins and asphaltenes from 49% to 17% from the initial state (S/A/R/A = 7.3%/43.7%/25.6%/23.5%) to the final state (S/A/R/A = 4.5%/63.5%/12.5%/20.0%), and the content of aromatics was maximized to 63.5%. The gas layer formed by the aquathermolysis reaction in the reactor chamber was collected and analyzed by GC-MS spectroscopy. As a result, various hydrocarbon compounds such as ethylbenzene, octane and dimethylbenzene were detected.
접촉식 가수열분해 반응에 의한 감압잔사유의 점도 강하에 대한 연구
고진영 ( Jin Young Ko ),박승규 ( Seung-kyu Park ) 한국공업화학회 2018 공업화학 Vol.29 No.4
본 연구에서는 접촉식 가수열분해 반응을 이용하여 원유를 감압증류한 후 생산되는 고점도의 감압잔사유(VR)의 개질 반응을 실시하였다. 감압잔사유는 30 bar, 300 ℃ 이상에서 24 h 동안 수증기(steam)와 반응하면, 구성성분 중에서 레진 류와 아스팔텐류가 감소하고, 포화탄화수소류(saturates)나 방향족탄화수소류(aromatics)가 증가하는 경향을 보였다. 이때 스팀 양이 적은 경우에는 가수열분해 반응 후 아스팔텐 함량이 증가되는 역반응 효과도 관측되었다. 수소공여제인 데칼린을 사용하며 메탈옥사이드-제올라이트계 촉매를 사용하는 접촉식 가수열분해 반응 결과 레진과 아스팔텐류가 10% 정도 줄고 방향족 탄화수소류가 10% 증가하면서 점도 감소효과도 70% 정도로 우수하였다. GC-Mass spectroscopy를 이용하여 촉매 사용 시 가수열분해 반응 결과 분자량이 적은 물질로의 분해효과가 우수함을 확인할 수 있었다. In this study, the reforming reaction of vacuum residues (VR), high viscosity oil residues produced from vacuum distillation process of petroleum oil, was carried out using catalytic aquathermolysis reaction. VR showed a prone to decrease the amount of resins and asphaltenes in the constituents, and to increase saturates and aromatics when reacting with steam at 30 bar and above 300 ℃ for 24 h. When the amount of steam is not enough at this reaction, the asphaltene content in the products was rather increased after the reaction. As a result of the catalytic aquathermolysis using the metal oxide-zeolite catalyst with the decaline as a hydrogen donor, a 10% decrease in resin and asphaltene as well as a 10% increase in the aromatic hydrocarbon were observed. Consequently, the viscosity of VR decreased by 70% after the reaction. GC-Mass spectroscopy showed that the aquathermolysis of VR resulted in the decomposition of the resins and asphaltens into a low molecular weight material.