• Journal of the Korea Academia-Industrial cooperation Society
• /
• v.20 no.4
• /
• pp.606-612
• /
• 2019

The main causes of subsidence and sinkholes in the lower part of urban roads are sewage line foundation and inadequate compaction of backfill material. This leads to many problems, such as the breakage of joints in sewer pipes, poor connection, pipe breakage, and cracks. To solve this problem, the support factor related to the sewer foundation and the safety factor according to the excavation depth were evaluated. For the foundation of rigidity tolerance, crushed stone foundation, and abandoned concrete foundation, a recently newly developed site assembly-type lightweight plastic foundation were used. Backfill materials were applied on site (sandy soil and clayey soil) and fluid backfill was recycled onsite. To evaluate the depth of excavation and the safety factor of each sewer pipe foundation, the design load considering the load factor and the support factor was evaluated. The support coefficients were 0.377 for a crushed stone foundation, 0.243 and 0.220 for an abandoned concrete foundation ($180^{\circ}$ and $120^{\circ}$), and 0.231 for a lightweight plastic foundation and fluid backfill. Overall, the safety factor was low when using the crushed stone foundation, and the safety rate was the highest when the foreclosed concrete foundation ($180^{\circ}$) was used. In addition, when the combination of lightweight plastic and fluid backfill materials was used, the safety factor was higher than that of abandoned concrete foundation ($120^{\circ}$), which means that the newly developed lightweight plastic foundation can be used as another alternative base of a steel pipe.

• The Journal of Internal Korean Medicine
• /
• v.35 no.3
• /
• pp.366-372
• /
• 2014

Objectives: This is a report of a case of a stage IV non-small-cell lung cancer (NSCLC) patient whose malignant pleural effusion & respiratory symptoms have been relieved with Korean medicinal prescription, modified Yieum-jeon. Methods: A 56-year-old male diagnosed with stage IV NSCLC suffering malignant pleural effusion with complaints of cough, sputum, bilateral leg edema, dysphagia, post neck and left scapular pain was treated with modified Yieum-jeon and acupuncture during 16days. After treatment, blood lab and chest X-ray were used to follow the condition of malignant pleural effusion & pulmonary symptoms. Results: Malignant pleural effusion and pulmonary symptoms were improved with modified Yieum-jeon intake without any related adverse side effects. Conclusions: This study suggests Yieum-jeon may play a positive role in improving the malignant pleural effusion symptoms in advanced lung cancer cases.

• Journal of the Korea Academia-Industrial cooperation Society
• /
• v.11 no.2
• /
• pp.420-425
• /
• 2010

In the process of warm forging, billet is heated up to $800^{\circ}C$ and located in the upper part of die block impression. The scattered oxidized scale may cause workers burn and shortening of die life sticking to the die block impression. The separating materials sprayed in die block cause harmful dust, harmful mist, fume, and bad odor which contaminate workshop environment. The process is classified as one of the avoided jobs and make the planned output achievement difficult. Development of an elimination device to clear out the contaminating materials in the workshop and improvement of the unsatisfactory maintenance method to fix the abrasion of die block impression which delays the dead line, cost increases needs to be developed. In this research, I tried to solve the problems caused in warm forging of bronze pipe joint such as the billet heating process, die maintenance, and manufacturing cost through improvement of warming forging manufacturing method and die maintenance method and eliminating harmful gas which will make the workshop more environment friendly.

• Korean Journal of Air-Conditioning and Refrigeration Engineering
• /
• v.25 no.11
• /
• pp.595-599
• /
• 2013

The pipes used in buildings are generally categorized into metallic or plastic materials. Metal pipes, such as copper and stainless steel pipes, are mainly used for water and hot water supply, and for the heating system. However, plastic pipes made of polyethylene and cross-linked polyethylene are used for floor heating, water drainage, and air vent systems. Usually, plastic pipes have thermal demerits, such as high linear expansion coefficients and bending phenomenon by hot water, although the pipes have several merits of light weight, low price, low thermal conductivity, and the comparatively high workability of metal pipes. Therefore, if those kind of demerits are overcome, plastic pipes can be easily accepted for hot water systems. This research is aimed to evaluate the applicability for vertical heating pipes of a plastic pipe system consisting of electric fusion fitting of a conductive carbon compound and propylene random glass fiber pipe, through measurement of the expansion rate and leakage in summer and winter seasons, in the apartment construction field.

• Journal of the Korea Academia-Industrial cooperation Society
• /
• v.16 no.6
• /
• pp.4322-4327
• /
• 2015

Improper backfill materials and compaction controls under pipelines have become one of the major causes of failure in many sewage pipeline systems. A study on backfill materials and compaction controls has been considered for a long time. However, structural supporters under the pipe were recently concerned because of pipeline repair and maintenance. This paper presents a prefabricated plastic foundation for supporting a sewage pipe system and increasing the performance function of the pipes. Several analytical models for the plastic foundations were investigated using finite-element program, ABAQUS, for checking safety. Comparing with the results of analyses, some of economic design sections based on the sizes of pipe diameters, 600mm, 700 and 600mm, were evaluated. These results could be applied to a pipeline system with a prefabricated plastic foundation with respect to pipe diameters and buried depths.

• Journal of the Korean Institute of Gas
• /
• v.22 no.6
• /
• pp.28-33
• /
• 2018

Currently, the government has been expanding the supply of semi-low-pressure in order to solve the problems of unsupplied area of city gas and to secure the economical efficiency of small supplied area. It is mainly supplied from the central storage tank to each household by buried piping. It is necessary to provide such a shutoff valve that can block the excess flow gas due to pipeline leak or rupture when piping is damaged by other construction. For this study, System CFD code named Flownex has been used and a component corresponding to the actual EFV was developed. We compared Flownex results with experimental data to verify the accuracy of Flownex and confirmed the error rate to be around 2%. In this study, pipeline network modeling was done by selecting the LPG supply pipeline in a village and installed the component of the EFV at each junction. We selected the longest pipeline from the main pipeline and set scenarios so that the excess flow occurs by that the pipeline is ruptured before entering the household. The excess flow occurs by the pipeline rupture and the EFV is closed. At this time, we analyzed backflow effects to the other pipeline by closing EFV.

• Journal of the Korean Geosynthetics Society
• /
• v.12 no.1
• /
• pp.73-81
• /
• 2013

The objective of this paper is to minimize installation length of pipeline and to reduce burial depth for construction by increasing the friction coefficient caused by the interface between backfill material and pipeline. And then, the sufficient friction coefficient shortens the length of expansion joint pipe and gives the life extension of expansion joint absorber for efficient procedure regarding maintenance and administration of construction. The backfill material which is developed in this study has larger and smaller friction angle than that of conventional backfill material (river sand). The backfill material with tire powder provides low friction angle at curved section when pipe diameter increases in size (38% reduction at pipe diameter in 900 mm). When using backfill material with river sand and fly-ash, the mixture mixed with 1.5% fly-ash has 30% and that with 3% fly-ash has 50% reduction effect for minimum installation length of expansion joint pipe.

• Journal of the Society of Disaster Information
• /
• v.9 no.4
• /
• pp.449-461
• /
• 2013

As the hydrofluoric acid leak in Gumi-si, Gyeongsangbuk-do or hydrochloric acid leak in Ulsan, Gyeongsangnam-do demonstrated, chemical related accidents are mostly caused by large amounts of volatile toxic substances leaking due to the damages of storage tank or pipe lines of transporter. Safety assessment is the most important concern because such toxic material accidents cause human and material damages to the environment and atmosphere of the surrounding area. Therefore, in this study, a hydrofluoric acid leaked from a storage tank was selected as the study example to simulate the leaked substance diffusing into the atmosphere and result analysis was performed through the numerical Analysis and diffusion simulation of ALOHA(Areal Location of Hazardous Atmospheres). the results of a qualitative evaluation of HAZOP (Hazard Operability)was looked at to find that the flange leak, operation delay due to leakage of the valve and the hose, and toxic gas leak were danger factors. Possibility of fire from temperature, pressure and corrosion, nitrogen supply overpressure and toxic leak from internal corrosion of tank or pipe joints were also found to be high. ALOHA resulting effects were a little different depending on the input data of Dense Gas Model, however, the wind direction and speed, rather than atmospheric stability, played bigger role. Higher wind speed affected the diffusion of contaminant. In term of the diffusion concentration, both liquid and gas leaks resulted in almost the same $LC_{50}$ and ALOHA AEGL-3(Acute Exposure Guidline Level) values. Each scenarios showed almost identical results in ALOHA model. Therefore, a buffer distance of toxic gas can be determined by comparing the numerical analysis and the diffusion concentration to the IDLH(Immediately Dangerous to Life and Health). Such study will help perform the risk assessment of toxic leak more efficiently and be utilized in establishing community emergency response system properly.

• Journal of Korean Medical classics
• /
• v.13 no.2 s.17
• /
• pp.58-67
• /
• 2000

통과대문왕팔괘차서도화문왕팔괘방위도적연구(通過對文王八卦次序圖和文王八卦方位圖的硏究). 득도요여하결론(得到了如下結論). 1. 최초명명위문왕팔괘차서도화문왕팔괘방위도적인시소옹(最初命名爲文王八卦次序圖和文王八卦方位圖的人是邵雍). 문왕팔괘차서도화문왕팔괘방위도수연몰유시문왕소화적확체적근거(文王八卦次序圖和文王八卦方位圖雖然沒有是文王所畵的確切的根據), 단시종추연복희이(但是從推演伏羲易), 동사상결합(同事相結合), 최종확립여금적역학체계적인시문왕(最終確立如今的易學體系的人是文王). 이차환부합현금적역리(而且還符合現今的易理), 인차구유일정설복력(因此具有一定說服力). 2. 재문왕팔괘차서도중삼남유일양이음구성(在文王八卦次序圖中三男由一陽二陰構成). 삼녀유일음이양구성(三女由一陰二陽構成). 저가이용음양호근적원리진행설명(這可以用陰陽互根的原理進行說明). 3. 복희팔괘방위도현시모종공간상(伏羲八卦方位圖顯示某種空間相). 이문왕팔괘방위도칙현시사시(而文王八卦方位圖則顯示四時). 팔절적변화화만물생장적류행주기등시간상적변화(八節的變化和萬物生長的流行周期等時間上的變化). 4. 문왕팔괘방위도동사시적오행상일치(文王八卦方位圖同四時的五行相一致). 시상생관계(是相生關係), 팔괘당중각유양개목김토(八卦當中各有兩개木金土). 시유우형흔왕성(是由于形흔旺盛), 수화각유일개시유우기흔왕성(水火各有一개是由于氣흔旺盛). 5. 문왕팔괘방위도재표면상간호상시오행상생적관계(文王八卦方位圖在表面上看好象是五行相生的關係). 단시(但是), 상호성대면적팔괘적오행도성상극관계(相互成對面的八卦的五行都成相剋關係). 화동측상임적감수(和東側相臨的坎水) 간토(艮土) 진목(震木) 손목도시성상극관계(孫木都是成相剋關係). 종차가이지도상극시발전만물적주체(從此可以知道相剋是發展萬物的主體). 6. 대우복희팔괘전화위문왕팔괘적원리(對于伏羲八卦轉化爲文王八卦的原理), 수유각종이론제출(雖有各種理論提出). 단시상무확체적설법(但是尙無確切的說法). 7. 복희팔괘주요체현천도화외상등(伏羲八卦主要體現天道和外象等), 문왕팔괘측체현인사화내정등(文王八卦側體現人事和內情等). 8. 복희팔괘위체(伏羲八卦爲體), 문왕팔괘위용(文王八卦爲用). 복희팔괘중(伏羲八卦中), 위변화적주체적천지즉건곤위우중축(爲變化的主體的天地卽乾坤位于中軸). 문왕팔괘중(文王八卦中), 위변화적대용적일월즉감리위우중축(位變化的大用的日月卽坎離位于中軸). 9. 복희팔괘도속우표현춘천적변화지상적제일괘도(伏羲八卦圖屬于表現春天的變化之象的第一掛圖), 생괘도화창조도(生掛圖和倉曹圖), 문왕팔괘도칙속우표현하천적변화지상적제이괘도(文王八卦圖則屬于表現夏天的變化之象的第二掛圖), 장괘도화발전도(長掛圖和發展圖). 10. 문왕팔괘도시류행이치기용적역지용(文王八卦圖是流行以致其用的易之用), 표현무질서화혼란(表現無秩序和混亂), 위화여괴리상호란무적난음난양지상(韋和與乖離相互亂舞的亂陰亂陽之象). 11. 문왕팔괘도화낙서적변화원리상일치(文王八卦圖和洛書的變化原理相一致), 가이장낙서적수직접대응도문왕팔괘도중(可以將洛書的數直接對應到文王八卦圖中). 우명낙서팔괘도(又名洛書八卦圖). 구수도혹일구역(九數圖或一九易). 12. 문왕팔괘도적상대응적수자지합도위십(文王八卦圖的相對應的數字之合都爲十). 저예시료성괘도십수도적출현(這豫示了成掛圖十數圖的出現).

• Journal of Korean Medical classics
• /
• v.19 no.2 s.33
• /
• pp.46-52
• /
• 2006

${\ulcorner}$황제내경(黃帝內經)${\lrcorner}$ 내함한의학이론(內含韓醫學理論) 기중삼응삼양적내용비상난(其中三陰三陽的內容非常難) 기원인사(其原因是)${\ulcorner}$황제내경(黃帝內經)${\lrcorner}$ 중삼음삼양적내용비상복집(中三陰三陽的內容非常複雜), 특별시삼음삼양적시간배속매편화일양(特別是三陰三陽的時間配屬每篇不日樣) 본론문통과관우(本論文通過關于子) ${\ulcorner}$황제내경(黃帝內經)${\lrcorner}$ 중삼음삼양적시간배속진행연구(中三陰三陽的時間配屬進行硏究), 득출여하결론(得出如下結論), 운기지주기순서춰시오행(목화토금수)순서(運氣之主氣順序就是五行(木火土金水)順序), 저설명주기변화주요근거형지변화(這說明主氣變化主要根據形之變化), 운기지객기순서취시기지대(運氣之客氣順序就是氣之大小)(일양(一陽)${\longrightarrow}$이양(二陽)${\longrightarrow}$삼양(三陽)${\longrightarrow}$일음(一陰)${\longrightarrow}$이음(二陰)${\longrightarrow}$삼음(三陰))${\longrightarrow}$, 저설명객기변화주요근거기지변화(這說明客氣變化主要根據氣之變化) ${\ulcorner}$소문맥해(素問脈解)${\lrcorner}$ 적삼음삼양월별배속시음관(11월:태음)(的三陰三陽月別配屬是陰關(11月:太陰)${\longrightarrow}$양관(1월:태양)(陽關(1月:太陽)${\longrightarrow}$음합(3월:궐음)(陰闔(3月:厥廠)${\longrightarrow}$양합(5월:양명)(陽闔(5월:陽明))${\longrightarrow}$음추(7월:소음)(陰樞(7月:少陰)${\longrightarrow}$양추(9월:소양)(陽樞(9月少陽). 태양소음시음양세력적기초(太陽少陰是陰陽勢力的基礎), 소이상위표리(所以相爲表裏). 소양소음시음양세력적중간(少陽少陰是陰陽勢力的中間), 소이사위표리(所以杞爲表裏) 태음궐음시음양세력적전성기(太陰歐陰是陰陽勢力的全盛期), 소이상위표리(所以相爲表裏) 차료리적의사반영경락류주(此表養的意思反映經絡流注). 태음양명경류주신체전면(太陰陽明經流注身體前面), 태양소음경류주신체후면( 太陽少陰經流注身體後面 ), 소양궐음경류주신체측면(少陽厥陰經流注身體側面). ${\ulcorner}$령추경맥(靈樞經脈)${\lrcorner}$적12경맥류주순서시태음양면경(的12經脈流注順序是太陰陽明經)${\longrightarrow}$소음태양경(少陰太陽經)${\longrightarrow}$궐음소양경적표리경락위주(厥陰少陽經的表裏經絡爲主). 수선매기류주태음양명경적이유(首先脈氣流主太陰陽明經的理由), 취시후천수곡정미화호흡대기결합이형성경맥지기(就是後天水穀精微和呼吸大氣結合而形成經服之氣). 지후맥기류주소음태양경(之後脈氣流注少陰太陽經), 설명순행태음양명경적후천영양물질전입한열경락이위신(說明盾行太陰陽陽明經的後天營養物質轉入寒熱經絡而爲寫薪), 기차맥기순해궐음소양경적(其次脈氣盾行厥陰少陽經的), 인위한열경락지화기피궐음소양경지풍기조절이후조절조습경락(因爲寒熱經絡之火氣被厥陰少陽經之風氣調節而後調節操濕經絡), 비여작반시(比如作飯時), 화기취시소음태양경(火氣就是少陰太陽經), 풍기취시궐음소양경(風氣就是厥陰少陽經), 정내지반취시태음양명경.(鼎內之飯就是太陰陽明經). ${\ulcorner}$령추음양계일월(靈樞陰陽緊日月)${\lrcorner}$ 적삼음삼양월별배속주요시추관합합관추순서(的三陰三陽月別配屬主要是樞關闔闔關樞順序). 저양배서적원인시개문화관문과정(這樣排序的原因是開門和關門過程). 재춘하(在春夏), 양경락지맥기여개문관문과정(陽經絡之脈氣如開門關門過程), 수착추관합합관추순서순행(隨看樞關闔闔關樞順序盾行), 재추동(在秋冬), 음경락지맥기여개문폐문과정(陰經絡之脈氣如開門閉門過程), 수착추관합합관추순행(隨看樞關闔闔關樞盾行).