• Journal of Advanced Marine Engineering and Technology
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• v.39 no.4
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• pp.432-436
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• 2015

This study computationally explored the thermal performance of passively-cooled polymer heat sinks utilizing seawater. Polymer heat sinks are proposed as cooling modules of the cold sides of thermoelectric generators for waste heat recovery. 3-D Computational Fluid Dynamics (CFD) modelling was conducted for a detailed numerical study. Polyphenylene sulfide (PPS) and pyrolytic graphite (PG) were selected for the base materials of polymer heat sinks. The computational study evaluated the performance of the PPS and PG heat sinks at various fin numbers and fin thicknesses. Their performances were compared with those of aluminum (Al) and titanium (Ti) heat sinks. The study results showed that the thermal performance of the PG heat sink was 3~4 times better than that of the Ti heat sink. This might be due mainly to the better heat spreading of the PG heat sink than the Ti heat sink. The effect of the number of fins on the performance of the PG heat sink was dissimilar to the cases of the PPS and Ti heat sinks. This result can be explained by the interrelationships among heat spreading, surface area enhancement, and fluidic resistance incorporating with an increase in the number of fins.

• Proceedings of the Korean Society of Marine Engineers Conference
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• 2000.11a
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• pp.7-14
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• 2000

• Journal of Navigation and Port Research
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• v.36 no.1
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• pp.35-41
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• 2012

In this paper, we analyze the current submarine cooling system and study control algorithms for cooling system. Cooling system are installed in the submarine propulsion motor to protect the motor from high-temperature by iron loss and copper loss. The cooling system control the sea water and fresh water pump RPM to keep the motor temperature stable by external environment and motor RPM holding time. The cooling system simulation program is made for checking the cooling performance, and simulation is performed with various control strategy. The results with proposed cooling algorithm is shown to improve the thermal stability and efficiency of cooling system.

• Journal of the Korean Society of Fisheries and Ocean Technology
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• v.34 no.3
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• pp.346-351
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• 1998

The purpose of this study is analyzing the performance of sea water cooling system under various refrigerant pipe length. In sea water cooling system, the increase of refrigerant pipe length cause increases of pressure drops. These pressure drops cause fresh gas in liquid pipe and increase specific volume in gas pipe outlet, so sea water cooling system capacity is decreased by decrease of refrigerant mass flow rate. Sea water cooling system capacity in refrigerant pipe length 70m is decreased more than 30% when compared with pipe length 10m and the decrease of the coefficient of performance is nearly 20%.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.22 no.3
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• pp.51-57
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• 2021

The seawater cooling system of naval ships is installed to remove the toxic substances generated by CBR (Chemical, Biological, and Radiological) warfare and reduce the infrared signature of naval ships from outside the hull. The dispersion range of the nozzle is determined according to the injection pressure of seawater and the nozzle type. Therefore, it is necessary to select the appropriate injection pressure and design the optimal nozzles to increase the seawater dispersion area and maximize the efficiency of the cooling system. In this study, the applying feasibility of 3D printing technology to produce an injection nozzle for the seawater cooling system was examined. To this end, the extruded plastic specimens were fabricated by 3D printing, and the physical properties of the specimens were estimated through tensile testing. After this, the strain and stress of the nozzle as a function of the pressure were simulated by applying the estimated results to the finite element analysis. The finite element analysis results showed that the nozzle remained within the elastic range at the optimal pressure. The nozzle was estimated to be structurally stable, and the possibility of this study was confirmed.

• Economic and Environmental Geology
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• v.34 no.5
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• pp.447-460
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• 2001

The geothermal waters from the Busan area belong to Na-CI type and are characterized by much higher EC (921 ~6,520${\mu}$S/cm) and TDS (608-3,390 mg/L) than other geothermal waters in Korea. The concentration of majorions shows a weakly positive relationship with temperature except for Mg ion. The concentrations of the major cat ions have the order of Na>Ca>K>Mg. Ca ion is enriched and Mg ion is depleted compared with seawater. All Br concentrations of geothermal water are lower than those of seawater, showing a positive relationship with temperature. Generally geochemical characteristics of geothermal waters of the Busan area indicate that these waters have relatively increased Ca and Sr contents and depleted Mg, Na and K contents caused by seawater interaction with wall rock at depth during deep circulation of seawater. Base on the relationship between major ions and temperature, saline geothermal waters are diluted and are cooled by mixing of groundwaters during ascent. Isotope study and reaction path modeling of the overall geochemical system are required in order to better quantify the evolution and origin of geothermal waters in the Busan area.

• Proceedings of the Korean Nuclear Society Conference
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• 1998.10a
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• pp.115-115
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• 1998

• Proceedings of the Korean Nuclear Society Conference
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• 1999.05a
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• pp.287-287
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• 1999

• Journal of Advanced Marine Engineering and Technology
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• v.40 no.4
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• pp.282-287
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• 2016

Recently in order to protect the ocean environment and to reduce energy consumption, shipbuilders have been developing highly economized ships. This research analyzed the possibility of adopting the onshore absorption refrigerator to offshore ships having a cooling system with refrigerant by using the waiste heat of the engine jacket cooling water instead of compression refrigerators. The results showed that R236fa could be a suitable medium for absorbing the heat of the absorber and condenser in an absorption refrigerator. The cooling system using R236fa achieved a high COP of 0.798, which is 15% and 5% higher than an air cooling system with a cooling tower and a water cooling system with a heat exchanger, respectively. The cooling system with R236fa achieved high efficiency with a 25% reduction in flow rate of LiBr solution and only 15.7% flow rate of cooling medium as compared to the water cooling system. The heating of sea water by the engine jacket water flowing out from the generator can prevent the crystallization of LiBr solution due to the low temperature of sea water.

• 한국신재생에너지학회:학술대회논문집
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• 2010.06a
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• pp.192.2-192.2
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• 2010

일반적 의미의 소수력발전은 계곡이나 저낙차의 하천에서 시도되었으나, 한국의 지형과 강수패턴등은 소수력발전을 활성화하기에 어려운 점들이 있었다. 이에 최근에는 정수장, 하수처리장등과 같은 인공구조물에 소수력발전을 설치 운영하는 방향으로 가고 있으며, 특히 화력발전소 냉각공정에 사용되는 해수를 이용한 소수력발전이 크게 성공하였고 확대설치 되어가고 있다. 해안에 위치하는 LNG인수기지에서는 LNG의 기화에 해수를 열원으로 사용하며, 기화공정에서 열교환 후 바다에 배출된다. 이 때 기화해수와 공기와의 접촉으로 생성된 거품은 해양미생물과의 복합작용으로 쉽게 깨어지지 않고 바다로 떠내려가게 된다. 이러한 거품은 시각적 거부감으로 인하여 인근어민들의 불편함을 야기하고 있으며, 또한 배출해수와 일반해수와의 온도차로 인한 인근 어장이나 양식장의 어획고에 미칠 수 있는 부작용의 가능성에 대한 우려는 더욱 방류해수의 적절한 처리를 필요로 하고 있다. 이러한 방류해수의 거품생성을 해결하는 데 있어 근본적인 해결방법은 심층배수법인데, 심층배수 구조물에 발전수차를 추가 설치만 하면 수력발전이 가능하다. 방류해수의 거품관련 환경문제를 해결하면서 동시에 청정전력을 생산할 수 있는 해양소수력발전에 대하여 KOGAS에서는 LNG 인수기지에의 적용가능성을 분석하고 있으며, 방류해수의 낙차와 조수간만의 차를 이용하는 해양소수력발전을 LNG 인수기지에의 적용하는 것으로는 세계최초의 시도이다. 주변지형에 따른 입지여건을 분석하고, 해수계통분석, 소수력발전방법, 수차종류, 수차용량, 수차개수, pond의 크기등을 결정하고, 수리해석 및 경제성분석을 수행할 것이며 소수력발전의 타당성여부에 대한 가늠을 잡고자 한다.