The condenser is one of the main components in a system that condenses vapor into liquid. The performance of a condenser can be influenced by heat transfer rate, vacuum pressure, and effectiveness. The aim of this research is to determine the effectiveness value and variables that affect the performance of the condenser in the lemongrass distillation process, as well as to understand the influence of heat transfer rate on film condensation (condensate vapor mass). The research method used the Log Mean Temperature Difference (LMTD) and Effectiveness - Number of Transfer Unit (NTU) to calculate the effectiveness value and compared the condensate vapor mass with the mass flow rate of vapor to obtain film condensation. The research results showed an effectiveness value of 89% in the condenser, and the condensate vapor mass accounted for 36% of the biooil. The influencing variables were a capacity ratio of 0.0182840, a heat transfer rate of 186544.68 W, and an LMTD of 29.74°C. Therefore, it can be concluded that the condenser used in the lemongrass distillation process still performs well.

Condensor; Heat Transfer Rate; Effectiveness NTU

Alamsyah, D., Zulfikar, A. J., Yusuf, M., & Siahaan, R. (2022). Optimasi kekuatan tekan beton kolom silinder diperkuat selubung komposit laminat jute dengan metode anova compressive strength optimization of cylindrical column concrete reinforced jute laminated composite wrap with anova method. Jcebt, 6(1), 30–36. http://ojs.uma.ac.id/index.php/jcebt

Alawee, W. H., Abdullah, A. S., Mohammed, S. A., & Majdi, A. (2022). Testing a single slope solar still with copper heating coil, external condenser, and phase change material. Journal of Energy Storage, 56(10), 106030.

Amirhafizan, M., Yuhazri, M., Umarfaruq, H., Lau, S., Kamarul, A., & Zulfikar, A. (2023). Laminated Jute and Glass Fibre Reinforced Composite for Repairing Concrete Through Wrapping Technique. International Journal of Integrated Engineering, 15(1), 1–8.

Atmaca, İ., Şenol, A., & Çağlar, A. (2022). Performance testing and optimization of a split-type air conditioner with evaporatively-cooled condenser. Engineering Science and Technology, an International Journal, 32(1), 101064.

Bin, L., Qinqin, L., Zhiyong, Z., & Sajid, M. (2016). The effect of the inject pressure on the distilled water by vacuum heat pump. Desalination, 399(2), 29–33.

Deivayanai, V. C., Yaashikaa, P. R., Kumar, P. S., & Rangasamy, G. (2022). A comprehensive review on the biological conversion of lignocellulosic biomass into hydrogen: Pretreatment strategy, technology advances and perspectives. Bioresource Technology, 365(6), 128166.

Derlini, D., & Zulfikar, A. J. (2022). Penyelidikan Kegagalan pada Alat Pemisah Karet Alam Jenis LRH 410. IRA Jurnal Teknik Mesin Dan Aplikasinya (IRAJTMA), 1(3), 51–61.

Doğan, B., Ozturk, M. M., Tosun, T., Tosun, M., & Erbay, L. B. (2021). A novel condenser with offset strip fins on a mini channel flat tube for reducing the energy consumption of a household refrigerator. Journal of Building Engineering, 44(4), 102932.

Kumar, P., Subbarao, P. M. V., Close, Kala, L., & Vijay, V. K. (2022). Influence of physical, mechanical, and thermal properties of biomass pellets from agriculture residue: Pearl millet cob and mix. Bioresource Technology Reports, 20(2), 101278.

Li, J., & Hrnjak, P. (2021a). An experimentally validated model for microchannel condensers with separation circuitry. Applied Thermal Engineering, 183(1), 116114.

Li, J., & Hrnjak, P. (2021b). Optimization of a microchannel condenser with separation circuitry. Applied Thermal Engineering, 184(1), 116273.

Li, W., Tu, J., & Liu, Y. (2021). Design and experimental validation of a new condenser of an automotive air conditioning unit to address non-uniform air velocity distributions. International Journal of Refrigeration, 131(1), 834–846.

Lu, Y., Zhang, Y., & Ma, K. (2022). The effect of population density on the suitability of biomass energy development. Sustainable Cities and Society, 87(3), 104240.

Mahvi, A. J., Kunke, T., Crystal, R. V., & Garimella, S. (2021). Enhanced power plant air-cooled condensers using auto-fluttering reeds. Applied Thermal Engineering, 193(1), 116956.

Muzakir, A. T., Zulfikar, A. J., & Siahaan, M. Y. R. (2022). Analisis Kekuatan Tekan Beton Kolom Silinder Diperkuat Komposit Hibrid Laminat Jute E-Glass Epoksi. JCEBT (Journal of Civil Engineering, Building and Transportation), 6(1), 12–19.

O’Kane, C., Haar, J., Mangematin, V., Daellenbach, U., & Davenport, S. (2021). Distilling and renewing science team search through external engagement. Research Policy, 50(6), 104261.

Pereira, I. P. S., Bagajewicz, M. J., & Costa, A. L. H. (2021). Global optimization of the design of horizontal shell and tube condensers. Chemical Engineering Science, 236(3), 116474.

Sagar, K. R., Desai, A. B., Naik, H. B., & Mehta, H. B. (2021). Experimental investigations on two-turn cryogenic pulsating heat pipe with cylindrical shell-type condenser. Applied Thermal Engineering, 196(1), 117240.

Shi, X., Yao, H., Liang, Z., & Li, X. (2022). An empirical study on fuel consumption of commercial automated vehicles. Transportation Research Part D: Transport and Environment, 106(3), 103253.

Siddiqui, O., & Dincer, I. (2021). Development and analysis of a new renewable energy-based industrial wastewater treatment system. Journal of Environmental Management, 290(3), 112564.

Siregar, D. A., & Zulfikar, A. J. (2022). Analisis Kekuatan Tekan Selubung Komposit Laminat E-glass pada Beton Kolom Silinder dengan Metode Vacuum Bagging. Jurnal Rekayasa Material, Manufaktur Dan Energi, 5(1), 20–25.

Vuppaladadiyam, A. K., Vuppaladadiyam, S. S. V., & Awasthi, A. (2022). Biomass pyrolysis: A review on recent advancements and green hydrogen production. Bioresource Technology, 364(3), 128087.

Wang, D., Zhang, C., Zulfikar, A. J., Mehrez, S., Huynen, I., Mahariq, I., & Elbadawy, I. (2023). Tuning layer thickness and layer arrangement in a GdMnO3 and GdMnO3-MoSe2 bi-layer absorber to cover the S, C, and X band frequency range. Surfaces and Interfaces, 36(1), 102507.

Yu, J., Nguyen, T. T. T., Pawar, A., & Jr., P. C. W. (2021). The effect of condenser temperature on the performance of the evaporator in a wickless heat pipe performance. International Journal of Heat and Mass Transfer, 176(5), 121484.

Yuhazri, M. Y., Zulfikar, A. J., & Ginting, A. (2020). Fiber Reinforced Polymer Composite as a Strengthening of Concrete Structures : A Review. Materials Science and Engineering, 1–12. https://doi.org/10.1088/1757-899X/1003/1/012135

Zhang, P., Dong, W., Wang, L., & Sun, W. (2021). Failure analysis of micro-channel condenser of air source heat pump water heater. Engineering Failure Analysis, 122(1), 105250.

Zulfikar, A. J. (2020). The Flexural Strength of Artificial Laminate Composite Boards made from Banana Stems. Budapest International Research in Exact Sciences (BirEx) Journal, 2(3), 334–340.

Zulfikar, A. J., Ritonga, D. A. A., Pranoto, S., Nasution, F. A. K., Arif, Z., & Junaidi, J. (2023). Analisis Kekuatan Mekanik Komposit Polimer Diperkuat Serbuk Kulit Kerang. Jurnal Rekayasa Material, Manufaktur Dan Energi, 6(1), 30–40.

Zulfikar, A. J., Siahaan, M. Y. R., Irwan, A., Nasution, F. A. K., & Ritonga, D. A. A. (2022). Analisis Kekuatan Mekanik Pipa Air dari Bahan Komposit Serbuk Kulit Kerang. Jurnal Rekayasa Material, Manufaktur Dan Energi, 5(2), 83–93.