• Geomechanics and Engineering
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• 제18권3호
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• pp.315-328
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• 2019

This paper presents an investigation on bearing capacity, load-settlement behavior and safety factor of rock-soil slopes reinforced using geogrid-box method (GBM). To this end, small-scale laboratory studies were carried out to study the load-settlement response of a circular footing resting on unreinforced and reinforced rock-soil slopes. Several parameters including unit weight of rock-soil materials (loose- and dense-packing modes), slope height, location of footing relative to the slope crest, and geogrid tensile strength were studied. A series of finite element analysis were conducted using ABAQUS software to predict the bearing capacity behavior of slopes. Limit equilibrium and finite element analysis were also performed using commercially available software SLIDE and ABAQUS, respectively to calculate the safety factor. It was found that stabilization of rock-soil slopes using GBM significantly improves the bearing capacity and settlement behavior of slopes. It was established that, the displacement contours in the dense-packing mode distribute in a broader and deeper area as compared with the loose-packing mode, which results in higher ultimate bearing load. Moreover, it was found that in the loose-packing mode an increase in the vertical pressure load is accompanied with an increase in the soil settlement, while in the dense-packing mode the load-settlement curves show a pronounced peak. Comparison of bearing capacity ratios for the dense- and loose-packing modes demonstrated that the maximum benefit of GBM is achieved for rock-soil slopes in loose-packing mode. It was also found that by increasing the slope height, both the initial stiffness and the bearing load decreases. The results indicated a significant increase in the ultimate bearing load as the distance of the footing to the slope crest increases. For all the cases, a good agreement between the laboratory and numerical results was observed.

• 한국지반공학회논문집
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• 제23권4호
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• pp.59-68
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• 2007

본 논문에서는 토조에 실시된 모형말뚝 재하실험과 콘관입실험을 통하여, 말뚝형태별 지지력 특성분석과 CPT지지력 상관계수를 평가하였다. 고려된 말뚝의 형태는 일반적인 현장타설말뚝에 적용되는 원통형 말뚝과 테이퍼형 말뚝이 고려되었다. 본 연구는 궁극적으로 강관주 송전탑의 기초구조물 형식개발과 설계기준 수립을 목표로 하고 있으며, 이를 위해 기초형식별 거동과 지반상태의 영향 등을 중점적으로 살펴보았다. 말뚝 토조실험을 통해 나타난 결과에 의하면, 원통형 및 테이퍼형 말뚝의 전체지지력의 차이는 크지 않았으나, 개별 지지력요소의 거동은 말뚝형태별로 상이한 것으로 나타났다. 토조실험결과와 동일한 지반조건에 대해 수행된 CPT결과를 통해 말뚝지지력과 콘지지력의 관계를 나타내는 CPT지지력 상관계수의 변화추이를 도출하였다. CPT상관계수는 원통형 및 테이퍼형 말뚝형태를 비교함으로써 나타내었으며, 선단지지력과 주면마찰력의 요소별 변화추이를 제안하였다.

• Journal of Information Processing Systems
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• 제15권3호
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• pp.464-477
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• 2019

With the sustained and rapid development of new energy sources, the demand for electric energy is increasing day by day. However, China's energy distribution is not balanced, and the construction of transmission lines is in a serious lag behind the improvement of generating capacity. So there is an urgent need to increase the utilization of transmission capacity. The transmission capacity is mainly limited by the maximum allowable operating temperature of conductor. At present, the evaluation of transmission capacity mostly adopts the static thermal rating (STR) method under severe environment. Dynamic thermal rating (DTR) technique can improve the utilization of transmission capacity to a certain extent. In this paper, the meteorological parameters affecting the conductor temperature are analyzed with the IEEE standard thermal equivalent equation of overhead transmission lines, and the real load capacity of 220 kV transmission line is calculated with 7-year actual meteorological data in Weihai. Finally, the thermal load capacity of DTR relative to STR under given confidence is analyzed. By identifying the key parameters that affect the thermal rating and analyzing the relevant environmental parameters that affect the conductor temperature, this paper provides a theoretical basis for the wind power grid integration and grid intelligence. The results show that the thermal load potential of transmission lines can be effectively excavated by DTR, which provides a theoretical basis for improving the absorptive capacity of power grid.

• 한국지반공학회지:지반
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• 제12권6호
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• pp.51-64
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• 1996

축하중계측장치가 부착된 모형 개단 강관 말뚝을 상대밀도 49%인 초세립질 포화 모래지반을 담고 있는 압력 토조속에 타입한 후 정적압축재하시험을 실시하여 극한지지력을 결정하였다. 극한지지력의 임의 수준의 압축하중을 말뚝머리에 재재하한 후 유사지진 진동 및 Sine정현파 진동을 작용시켜 동적 진동에 의한 개단말뚝의 압축지지력 저감특성을 연구하였다. 유사화된 지진진 동과 Sine정현파진동에 의한 개단말뚝의 지지력 저감특성은 큰 차이를 보였다. 유사화된 지진 진동중 지지력 저감율은 작용하중의 크기에 따라 크게 달라지는데, 작용하중의 크기가 약 70% 이하일 경우에는 지지력 감소율이 8%이하였으며, 극한하중의 90%이상을 지지하는 개단말뚝의 극한지 지력은 약 15%이상 감소되었다. 또한, 외주면 마찰력 성분의 감소량은 감소된 총 지지력의 약 80%를 차지하였다. Sine정현파 진동중 지지력의 감소율은 작용하중의 크기에 따라 달라지지 않으며, 진폭과 진동수에 의해 크게 영향을 받았다. 즉, 진폭이 클수록, 진동수가 적을수록 지지력은 크게 감소되었다. 관내토 폐색응력의 감소양상은 진동의 종류에 따라 크게 달랐다. 유사 지진 진동에 의한 관내토 폐색응력의 감소는 작용하중의 크기에 상관없이 말뚝 선단으로 부터 약 3.0D, 이내의 관내 토에서 발생되었다. Sine정현파 진동에 의한 판내토 폐색응력의 감소는 말뚝 선단으로 부터 약 1.0D,이내의 관내토에서 크게 감소하고, 1.0-3.0D,의 관내토 부분에서는 거의 감소되지 않았다. 또한, 관내토 폐색력은 크게 감소되어졌고, 작용하중의 크기에 따라 감소율도 크게 달랐다.

• 설비공학논문집
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• 제19권6호
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• pp.427-433
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• 2007

Generally, H.V.A.C load capacity in early planning phase can presume with maximum thermal load. Basic data can prove by air conditioning equipment system data analysis at existing building. There are poor and not reliable alternative presentation. In this paper, measured data after use H.V.A.C load calculation K-load program reply choosing standard building and variables simulation. And I founded peak load correlation graph and mode for several kinds of variable and contents of size. I wish that equipment designer is beaconed to produce optimum capacity at building as quantitative through this result.

• International Journal of Air-Conditioning and Refrigeration
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• 제13권1호
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• pp.1-10
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• 2005

Screw compressor chillers are widely used in refrigeration for capacity over 30 RT. In general, chillers operate under part-load conditions during most of the time. Therefore, information on the characteristics of part-load is very important for better chiller performance and energy economy. In this study, performance tests of screw chiller with economizer using R22 and R407C under part-load conditions have been performed for various secondary fluid temperatures. Adoption of an economizer system increased the cooling capacity and improved COP except for lower part-load condition when economizer volume ratio is 1.01. For the same cooling capacity condition at part-load, COP's of both non-economizer and economizer system showed similar values.

• 설비공학논문집
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• 제15권11호
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• pp.902-909
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• 2003

Screw compressor type chillers are widely used in refrigeration for capacity over 30 RT. In general, chillers operate under part-load conditions. Therefore, information on characteristics at part-load is very important in view of chiller performance and energy economy. In this study, performance tests of part-load and economizer system using R22 and R407C have been performed for various secondary fluid temperatures. Adoption of an economizer system increased the cooling capacity and improved COP except for lower part-load condition when injection volume ratio is 1.01. For the same cooling capacity condition at part-load, COP of both non-economizer and economizer system showed similar values.

• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2001년도 봄 학술발표회 논문집
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• pp.283-290
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• 2001

In this study, static Pile load tests and PDA for open-ended steel pipe pile($\phi$ = 609.6 mm, t = 14 mm) penetrated into the gravel layer(GP - GM) was accomplished and axial load distribution was measured. Based on the tests results, the ultimate bearing capacity and axial load bearing mode were examined. Also, the ultimate pile capacity was calculated by APIL $E^{PLUS}$./.

• 한국구조물진단유지관리공학회 논문집
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• 제7권1호
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• pp.239-249
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• 2003

20, 30 년 전 시골지역에 건설된 교량들은 과도한 교통량의 증가에 따른 초과하중을 지탱해야한다. 이러한 교량들에 대해서 보수 보강이나, 교량의 교체가 필요하다. 고가의 보수 보강을 피하기 위해는, 현재 교량의 내하력을 정확히 알아야한다. 내하력 평가자들은 교량의 내하력을 평가하기 위해 허용응력법, 강도설계법, 그리고 하중저항계수법등을 사용한다. 본 연구에서는, 내하력 평가방법을 설명하고, 문헌조사를 통해 교량의 하중실험 자료의 이용에 대하여 설명한다. 그리고, 30년전에 시골지역에 건설된 교량에 대해 하중실험을 하였다. 시험자료로 부터, 교량의 교체를 대신한 새로운 보수보강 방법이 제시되었다.

• Steel and Composite Structures
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• 제19권5호
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• pp.1077-1094
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• 2015

This paper presents an experimental study on the effectiveness of simultaneous application of carbon fiber-reinforced polymer (CFRP) and steel jacket in strengthening slender reinforced concrete (RC) column. The columns were 200 mm square cross section with lengths ranging from 1600 to 3000 mm. Ten columns were tested under axial load. The effects of the strengthening technique, slenderness ratio, cross-section area of steel angle and CFRP layer number were examined in terms of axial load-axial strain curve, CFRP strain, steel strip strain and steel angle strain. The experiments indicate that strengthening RC columns with combined CFRP and steel jacket is effective in enhancing the load capacity, ductility and energy dissipation capacity of RC column. Based on the existing models for RC columns strengthened with CFRP and with steel jacket, a design formula considering a slenderness reduction factor is proposed to predict the load capacity of the RC columns strengthened with combined CFRP and steel jacket. The predictions agree well with the experimental results.