Bongik-dong, Kwonnong-dong, Ikseon-dong and Nakwon-dong are areas around Donhwamun-ro in Seoul. These residential areas began to be developed collectively from the 1920s and the construction period was the fastest among hanok residences collectively formed in urban center. At that time, houses were developed with high density. In the 1920s, many medium-sized plots of less than 3,300㎡ were distributed around Donhwamun-ro. Private developers such as Jeong Se-kwon(Konyangsa), Shin Tae-jong, and Yoon Heung-rim, who were active at the time, purchased medium-sized plots. Developers sold out the land directly or after constructing Hanok on the divided plot and then selling them. This method of developing hanok residences by private developers in the 1920s have influenced on hanok residences which began to be developed after the 1930s. Currently, many urban Hanoks still remain in areas around Donhwamun-ro. The initial aspects of the hanok development in the 1920s could be grasped through blocks, plot division, alleys, row house Hanok etc around Donhwamun-ro.
The Don-am district is a residential area that was supplied in 1936 as a land readjustment project(Tojiguhoekjeongri). The Don-am district was newly supplied with residential areas and urban hanoks were built in large numbers. The Don-am district was influenced by urban planning and legislation at that time. These affected in the layout and plan of urban hanok. Residential block in the Don-am district were developed sequentially from the late 1930s to the 1960s. Residential block were divided by modern construction company and sold by individual lots. The blocks supplied to the Don-am district made uniformly the corner out-off(Ga gak) for creating a vehicle-centered road. So urban hanoks located in the corner plot was transformed in response to the road. Residential blocks in Don-am district was divided into three to four rows. Therefore, alleys were created inside the block. Newly made alleys consist of a privately owned road(Sa-do), a public road(Gong-Do), and open space in the site. And the alleys were used as an entry space for sharing with neighboring. Urban hanoks of Don-am district have had changed and adapted to the formation of these alleys.
Since its construction in the late 14th century, Hanyangdoseong had been carried out three major repairs and reconstructions during the 500 years of the Joseon Dynasty. In addition to the large-scale construction, small-scale construction continued until King Gojong era. In particular, in the 18th century, systematic construction management was implemented by the craftsmen and the military participated in the renovation of Hanyangdoseong in earnest, and the construction methods also developed rapidly. In the early 18th century, new construction techniques were attempted in various sections of the reconstruction work, and gradually became a common technology for repairing Hanyangdoseong in the late 18th century. The purpose of this study is to examine the characteristics and period of changes in the 18th century's construction technique, when the rapid development of Hanyangdoseong took place. To this end, the excavation results related to Hanyangdoseong, the remaining city wall, and the inscribed stones were used to identify and demonstrate the characteristics and change of the construction method.
The purpose of this study is to research about the construction of Chiseong around the Heunginjimun Gate area in the 18th century. the conclusions derived from the historical evidence of the number, location, size, and form, and construction method of Chiseong was as follows. First, the Chiseong(Square-shaped lookout) of Hanyangdoseong was built in the 29th year of King Yeongjo(1753) and can be found in the national record. Five sites of the Chiseong are currently identified. It is assumed that the Foru was installed on top of some of the Chiseongs. Second, Chiseong was destroyed sequentially in the first half of the 20th century. Third, Chiseong is a rectangular in shape and six are constructed. Fourth, Sixth Chiseong could figure out through Hengryeopungsokdo, the drawing of Jeong Seon.
This paper sought to examine characteristics and differences of the construction methods and the materials of the wall repair by three command through individual command records and national documents. This paper is based on the management section of three commands(Samgunyoung), which was in charge of a repair and management of Hanyangdoseong(Seoul city wall) in 18th century. The purpose and background of the study are as follows. First, through each inscribed stones on the rampart and the parapet, it is to grasp accurately the point of change of Hanyangdoseng after the 18th century. Second, through inscribed stones, the site evidence of the repair work in the late Joseon Dynasty, it is to find out the aspects of the development process of repair and reconstruction technology of Hanyangdoseng.
화학물질 취급공정에서 발생하는 화학사고를 예방하기 위해 기본적으로 요구되는 위험성 분석 (Risk Analysis)시 공정의 특성을 잘 반영하는 것이 매우 중요하다. 본 연구에서는 CFD (computational fluid dynamics) 언어를 활용하여 화학공장의 고위험 공정을 대상으로 신뢰성 있는 사고 피해 결과를 분석하고 안전확보 방안을 제시하였다. 이를 위한 방법론적 사례로 화학공장의 RHDS (잔사유수첨탈황공정) 공정을 대상으로 실제공정의 운전조건, 설비 및 장치의 형태와 밀집도, 대기상태, 바람의 영향 등 여러 복합적 변수를 고려하여 FEA (Finite Element Analysis)와 CFD 시뮬레이션을 수행 하여 확산, 폭발 시뮬레이션을 수행하였으며, 3D Scanning 기술, 누출공 크기 산정, 누출량 산정을 위한 CFD 적용 가능성을 검토하였다.
After the Korean war, two major attempts were made to reconstruct Gwanghwamun Gate as an important part of Korea’s lost cultural heritage. In December 2006, the Korean government replaced the concrete gate with a wooden one, yet traces of the attempts made in the 1960s to transform Gwanghwamun Gate and the main road remain to this day. At the time, the Third Republic of Korea, sought to legitimize itself in the name of modernity, and went on to modernize the architecture and urban landscape of Seoul. The location and design selected for the rebuilt Gwanghwamun illustrated the symbolic relationship between historic heritage and urban development. The reconstruction of the gate began as part of the Third Republic’s project to restore the Central Administration Building and culminated in the transformation of the main road in front of the gate. By reconstructing the traditional gate using concrete, the military government intended to convey the message that we could inherit our proud tradition using modern materials, and that we should actively adopt the new technologies of the modern era. This study begins with the premise that the Gwanghwamun reconstruction project of 1968 represents the application of new technological thinking to Korea’s architectural style, and has two objectives. The first is to summarize the reconstruction process and method using the records and drawings from the 1968 project, which was then under the leadership of architect Kang Bong-jin. The second is to analyze the characteristics of the architectural style and structure of the reconstructed Gwanghwamun so as to reinterpret the relationship between Korean tradition and modern technology.
Gwanghwamun was dismantled and displaced to the east side of the palace, at that time, the Chosun Government General Building was constructed in the Gyeongbokgung palace. After the Korea war, it remained as a stonework as a result of the fire. In 1968, The Gwanghwamun came back in front of the palace. Then, why it was rebuilt in the 3rd Republic period? What was the reason for selecting concrete? Since the May 16 coup, the military regime had been utilized palace and surrounding urban space to show a visible practice of modernization. Attempting the combination of modern technology in the 1960s and traditional cultural property and reconstructing a city as a pretext called Cultural Heritage conservation was a typical mechanism of the 1960s. In this study, I start by assume that reconstructing Gwanghwamun(1968) was a part of project to change the surrounding urban space of Gwanghwamun than to preserve cultural assets. Two main contributions of the study are following. First, I collect availabe data on the reconstructing surrounding urban space of the Gwanghwamun and re-organize them in chronological order to make them as fragments of a map. Second, I analysis and identify the nature and phase of the Gwanghwamun reconstruction.
Urban-Hanok emerged as a result of urbanization of Hanok in the modern period. In particular, Urban-Hanok has been mass-produced from the early 1920s, when the population is concentrated in cities, until the middle. Large-scale development by the professional developer has been developed in large-scale land rather than individual client because housing shortage was serious problem. 11 Gahoe-dong was made in 1935-36 is representative Urban-hanok area of Bukchon. It was formed through division of large-scale Land in 1930’s. In the 1930’s, the large-scale development projects of Urban-Hanok was triggered by the two events. One is Land Investigation Project performed by the Japanese government to capitalization of property, another is the pro-japanese bought the large scale-land in Gahoe-dong at bargain price from The Japanese government. Each lot has still a topographical characteristics such as land-dividing quality, the way of development, characteristic quality of urban-tissue. 11 Gahoe-dong, Urban-hanok area was developed two ways. First, development have been adapted to the topography. The lots have reflected topographical conditions such as land cutting area, a retaining wall, land-diving was maintaining the original topography almost. Second, it was street oriented development. The lots have developed sequentially along the street. So, the lots's shape and size is different each. For this reason, this area distribute various type of Hanok.
This study was aimed at analyzing the location and the characteristics of the Urban hanok tissues that were formed in the downtown since 1920s. Focusing on the relationship between roads and lots, the developing process and the typological characteristics are examined. Through dividing the large and medium lots of the aristocratic families and on the hilly area near the Seoul City Wall, various shapes of urban hanok tissue were evolved. The urban hanok tissues developed before 1936 locate on the downtown sites, while those developed after 1936 locate on the hilly sites. The location of the tissues were identified in the upper area of Jong-no street. The former is composed of small size lots divided into average area 104.4㎡ with the narrow alleys of about 2.0m width, while the latter is composed of medium size lots divided into average area 131.54㎡ with the alleys of about 4.0m width. Moreover the structures of the tissues were evolved based on the developing period and the site condition. Moreover the structures of the tissues were evolved based on the developing period and the site condition. The typological characteristics were defined as the four patterns categorized with the bilateral concepts of alley’s form and of alley’s spacial feature.
The object of this thesis is to study the Urban Hanoks around Cheongryangri district. Cheongryangri district became one of Seoul’s administrative districts due to the expansion of the urban area. It is located on the east side of Dongdaemun, the development was to deal with the lack of residential houses in the city. This research was to specify the stylistic characteristics of Urban Hanok in Cheongryangri area by analyzing the changes in residential Urban Hanok for to the influence the market. First, Cheongnyangni Urban Hanok shows the changes in the configuration of plan in accordance with change of the purpose and the way household are divided. Second, as the function of Urban Hanok changed there has been changes in cross-section area. Third, Urban Hanoks with different function have different location. Fourth, the functional change in shops does not cause the change in the plan.
This study was aimed at analyzing the location and topology of the 'Gungmyo(宮廟)' and in Hanyang Doseong(漢 陽都城) during 18th and 19th century. Based on the changes of royal processions(行幸) which had been done between the Gungmyo and the Palace, the Gungmyo can be a barometer of cognition where the city center was. Hanyang Doseong was the the capital of Joseon(朝鮮) which had established by king Taejo(太祖). The city had been organized with Gyeongbok-gung(景福宮) as the center. However, after the Imjin War(1592), Gyeongbok-gung was destroyed and urban space was reorganized with Changduk-gung(昌德宮) which reconstructed first. As most kings in late Joseon dynasty had mainly stayed in Changduk-gung, lots of Gungmyos where a memorial service for king’s relatives had been held were established in and around the palace and the frequency of visiting the Gungmyo varied by political purpose. Therefore, the location of the Gungmyo and the rounte of parade were important to impress on the center of urban space. In 18th century, lots of King’s procession had been done with Changduk-gung as departure point. The king used to start from Donwha-mun(敦化門), and the routes included main street around Changduk-gung. It shows that the urban center focused on the east of the city. On the other hand, when the king lived in Kyeonghee-gung(慶熙宮), a secondary palace in late Joseon dynasty, the parade started from Hungwha-mun(興化門) and the urban center was expended to the west. Since Gyeongbok-gung had reconstructed in 1865, recognition scheme of urban space had changed from Changduk-gung to Gyeongbok-gung as the center. When the Gungmyo relocated western side of Gyeongbok-gung, spatial proximity of the palace and relation with facilities around downtown fed into changing the route of king's parade.
This study was conducted to investigate of changes for organic acids in takju during storage conditions. Two types of takju, unsterilized and sterilized, were used. Acetic acid, citric acid, lactic acid, malic acid and succinic acid were detected in sample. Residues of malic acid was not detected after 7 days storage in room temperature( 25oC). In contrast to lactic acid was increased by times after storage. Acetic acid concentrations was gradually increased in room temperature but was not changed in cold temperature(4oC). After storage for 10 days, the organic acid residues lactic acid > citric acid > succinic acid > malic acid > acetic acid in unsterilized takju. Compared to unsterilized sample, organic acid residues in sterilized sample was not significantly changed. Consequently, organic acids residues mainly affected by sterilization.
This study focused on changes in form and spatial uses of Urban Hanok in Bukchon, Seoul. There are 10 representative cases which have been renovated through the policy of ‘Preservation & Regeneration of Bukchon' by Seoul metropolitan government and other experts. Changes in form and spatial uses of Urban Hanok in Buckon are as follows. First, changes of scale. Trough removing extension parts, facade of renovated Hanoks are ‘transformed’ into recovering their identity. Using basements or lofts, intensive application of spaces is transformation which promotes the vitality of Hanoks. Second, changes of space organization. As Hanok changes its function from residence to commercial or cultural use, it also changes space character or reorganizes space organization. It is important that deciding function of Hanok has to adjust its scale and organization. Third, changes of construction performance. Through introducing new material and constructing method, performance of wall has been changed respecting its wooden structure and interior-exterior figure. However, technical studies must back it up not to destroy its value of eco-friendly architecture. Fourth, changes of facility systems, like floor heating system. They changes floor level of Hanok equally, and then sections of Hanok have became simple. Furthermore, inserting new facility space, such as boiler room, stand-up kitchen, bathroom and toilet, organization of space also changed. It is necessary that wise alternative proposal through the method of transformation or mutation must be presented. These four changes can be classification into method of ‘transformation’ and ‘mutation’. Changes of scale are method of transformation and changes of space organization are method of mutation. Also, while changes of construction performance are mutation, changes of facility systems are transformation. Recently, as price of lots have been increased, a lot of Hanoks have been commercialized, The commercial energy threat ‘the identity of Bukchon as residential area’. From now on, to operate ‘identity’ and ‘vitality’ complementary, it is necessary to make up for the preservation policy of Hanok and consolidate renovating standards of Hanok which correspond to characterof particular region and building usage.
비다공성 중공사막 접촉기를 이용하여 수용액 내 용존 산소의 농도를 조절하고자 하였으며, 용존 산소의 농도를 전산모사를 통하여 예측하였다. 공급 기체와 공급 수용액이 같은 방향으로 흐르는 병류 흐름 시스템에 대한 분리막 접촉기 공정 지배 미분 방정식을 5차 Runge-Kutta-Verner 법으로 해석하였다. Compaq Visual Fortran 6.6 소프트웨어로 용존 산소농도 예측 프로그램을 개발하였다. 개발된 프로그램을 사용하여 수치해석을 수행한 결과, 분리막 수가 16,000개로 일정하며 공급기체의 유속이 0.536 mol/sec이고 압력이 486 kPa이며 공급 수용액의 유속이 16.69 mol/sec이고 산소의 몰분율이 0.995으로 유지된 상태에서, 분리막의 길이가 0.4에서 1.2m로 증가함에 따라 용존 산소는 30에서 64 ppm으로 증가하였음을 알 수 있었다. 분리막의 길이가 0.4 m일 때 공급수용액의 유속이 9.26에서 26.85 mol/sec로 증가함에 따라 용존 산소가 40에서 20 ppm으로 감소함을 알 수 있었다. 또한 공급 기체 압력이 298에서 847 kPa으로 증가함에 따라 용존 산소는 33에서 69 ppm으로 증가함을 알 수 있었다.
이산화황 흡수 수용액이 다공성 분리막 접촉기를 연속적으로 순환하는 시스템에서 다양한 운전변수에 따른 이산화황의 분리 효율을 고찰하였다. 공급 기체로는 이산화황/공기 혼합 기체를 사용하였으며 흡수제로는 Na2SO3 수용액을 사용하였다. 운전 변수들인 흡수제 농도와 공급 기체 내의 이산화황 농도, 분리막 재질, 흡수제 유속 변화에 따른 분리 효율에 대한 영향을 확인하고자 하였다. 흡수제의 농도 0.05 M에서 0.2 M로 증가할수록 이산화황 제거 효율은 74%에서 100%로 증가하였다. 이산화황 농도가 700 ppm에서 2,500 ppm으로 증가할수록 제거 효율은 100%에서 75%로 감소하였다. 또한 흡수제의 유속이 2.5 mL/min에서 15 mL/min으로 증가할수록 제거 효율은 85%에서 100%로 증가하였고, 분리막은 기공률이 클수록 제거 효율이 증가함을 확인할 수 있었다.
동일 운전 조건에서 폴리이서술폰 중공사 분리막을 이용하여 혼합 기체로부터 이산화탄소 분리 실험과 수치해석으로 얻어진 결과를 비교하였다. 순수한 기체의 투과도로부터 구한 이상 선택도를 활용한 예측값과 실험값이 많은 차이 가 있음을 확인할 수 있었다. 그러나 이산화탄소 투과도와 선택도를 혼합 기체 분리 실험 결과로부터 구한 후 공급 이산화탄소 몰 분율, 공급 압력과 투과측 압력의 함수로서 투과도와 선택도를 얻을 경우 수치해석 예측값과 실험값이 잘 일치하는 것을 확인하였다.