굴착 전 지반함몰 예측을 위한 위험등급 분류

임명혁 ( Myeong-hyek Ihm ),신상식 ( Sang-sik Shin ),김우석 ( Woo-seok Kim ),김학준 ( Hak Joon Kim ) 대한지질공학회 2018 지질공학 Vol.28 No.4

최근 국내에서 지반함몰의 발생빈도가 증가하고 있으므로 지반함몰 가능성을 사전에 예측할 수 있는 기술개발이 필요하다. 본 연구에서는 굴착 전에 지반함몰에 영향을 미치는 18개의 인자들을 지반의 종류, 지하수, 외부 인자 등을 고려하여 6가지 카테고리로 분류하였다. 18개 인자들은 지반함몰 예측을 위한 굴착 전 적용 가능한 지반함몰 위험등급 분류(GSRp) 도표를 구성하는데, 이러한 영향인자들의 중요도, 신뢰성, 저자들의 공학적 판단 등을 종합적으로 고려하여 등급을 나눈 후 점수를 부여하였다. 지반조건과 현장 상황에 따라 적용되는 지반함몰 영향인자가 다르므로 영향인자 별 가중치와 카테고리 별 가중치가 곱해지게 되는데 가중치는 영향인자들의 인용 빈도수를 기준으로 결정되었다. 지반함몰 영향인자 별점수, 인자별 가중치, 지반조건에 따라 부여되는 가중치 등을 종합하여 계산하면 굴착 전의 지반함몰 위험등급을 정량화 할 수 있다. 본 연구를 통하여 제안된 GSRp 도표는 굴착 전 현장에서 실무자들이 지반의 지반함몰 위험성을 예측하는데 활용할 수 있을 것으로 기대된다. The recent increase of ground subsidence in Korea requires the development of technology for predicting the possibility of ground subsidence. Eighteen parameters affecting the ground subsidence for pre-excavation are classified into 6 categories considering ground types, groundwater, and external factors. Eighteen parameters consists of a table which gives ground subsidence risk ratings for pre-excavation(GSRp). Certain scores are given to these parameters after they are divided into several classes considering the importance and the credibility of parameters and the engineering judgements of the authors. Because of the difference of ground subsidence factors depending on the ground and field conditions, weighting factors for the individual factor and for the each category are multiplied. Weighting factors are calculated from citation frequencies of influencing factors. Ground subsidence risk ratings for pre-excavation can be quantified by considering the individual score of each parameter and weighting factors for the individual factor and for the each category. The suggested GSRp tables obtained from this study are expected to be used by engineers for the estimation of ground subsidence risk ratings for pre-excavation sites.

Ground Subsidence Risk Ratings for Practitioners to predict Ground Collapse during Excavation (GSRp)

Ihm, Myeong Hyeok 국제문화기술진흥원 2018 International Journal of Advanced Culture Technolo Vol.6 No.4

In the field of excavation, it is important to recognize and analyze the factors that cause the ground collapse in order to predict and cope with the ground subsidence. However, it is difficult for field engineers to predict ground collapse due to insufficient knowledge of ground subsidence influence factors. Although there are many cases and studies related to the ground subsidence, there is no manual to help practitioners. In this study, we present the criteria for describing and quantifying the influential factors to help the practitioners understand the existing ground collapse cases and classification of the ground subsidence factors revealed through the research. This study aims to improve the understanding of the factors affecting the ground collapse and to provide a GSRp for the ground subsidence risk assessment which can be applied quickly in the field.

지하수위와 세립분 함유량에 따른 지반함몰 메커니즘

김진영,이성열,최창호,강재모,강권수,정효진,홍재철,이재수,백원진,Kim, JinYoung,Lee, SungYeol,Choi, ChangHo,Kang, JaeMo,Kang, KwonSoo,Jeong, HyoJin,Hong, JaeCheol,Lee, JaeSoo,Baek, WonJin 한국농공학회 2017 한국농공학회논문집 Vol.59 No.5

Recently, ground subsidence frequently occurs in downtown area. The major causes of the subsidence on the subsurface were the damages of the water supply and sewer pipelines and excavation works in adjacent areas, etc. Because of these various factors, it is not easy to analyze the tendency of occurrence of ground subsidence. The purpose of this study is to clarify the effect of ground subsidence by the change of the fine particle content and ground water level and to establish the ground subsidence mechanism. In this study, a model soil-box was manufactured to simulate the failure of the old sewer pipe which is one of the causes on ground subsidence. And a model test was conducted to investigate the effects of fine contents and ground water level on the cavity occurrence. From the test results, firstly the higher the ground water level, the faster the primary cavity is formed as the seepage stress increases. As a result, the secondary cavity and the ground subsidence rapidly progress due to the relaxation of the surrounding ground. The total amount of discharged soil was decreased as the fine content increased.

Field and laboratory assessment of ground subsidence induced by underground cavity under the sewer pipe

Kong, Suk-Min,Kim, Dong-Min,Lee, Dae-Young,Jung, Hyuk-Sang,Lee, Yong-Joo Techno-Press 2018 Geomechanics & engineering Vol.16 No.3

In densely populated urban areas with a large amount of infrastructure, ground subsidence events can result in massive casualties and economic losses. In South Korea, the incidence of ground subsidence in urban areas has increased in recent years and the number of underground cavities suspected of causing such events has significantly increased. Therefore, it is essential to develop techniques to prevent the occurrence of underground and ground subsidence. In this study, a field test, laboratory test, and numerical analysis were conducted to determine the optimal compaction degree of the upper support layer of any underground cavity below the level of sewer pipes in order to prevent such cavities from collapsing and leading to ground subsidence accidents. During the field test, an underground cavity was simulated using ice, and the generation of the cavity was confirmed using ground penetrating radar. The ground investigation was performed using a cone penetration test, and the compaction of the ground where ground subsidence occurred was evaluated with a laboratory test. The behaviour of the ground under various conditions was predicted using a numerical analysis based on the data obtained from the field test and previous studies. Based on these results, the optimal compaction degree of the ground required to prevent the underground cavity from causing ground subsidence was predicted and presented.

굴착공사 중 지반함몰 위험예측을 위한 지반함몰인자 분류

박진영 ( Jin Young Park ),장유진 ( Eugene Jang ),김학준 ( Hak Joon Kim ),임명혁 ( Myeong Hyeok Ihm ) 대한지질공학회 2017 지질공학 Vol.27 No.2

지반 함몰 위험성에 대한 지질학적 인자는 매우 다양하다. 어떠한 지질학적 요인 또는 외부적인 영향에 의해 영향을 받을 수 있으며 동일한 지질학적 요인 내에서도 여러 가지 다른 물성값에 의해 지반함몰 영향인자가 결정될 수 있다. 다수의 논문 및 연구사례를 검토 한 결과 크게 7가지 범주의 지반함몰 요인이 있음을 알 수 있었다. 공동의 존재 여부에 따라 상재하중의 심도 및 두께가 지반침하에 영향을 줄 수 있고, 토사와 암반으로 구성된 지반에서는 그 경계면의 심도와 배향이 지배적 요소이다. 이 중 토사지반에서는 좀 더 다양한 영향인자로 구성이 되어있는데 토사의 종류, 전단강도, 상대밀도 및 다짐도, 건조단위중량, 함수비, 액성한계가 그것이다. 암반지반에서는 암석의 종류와 주 단열과의 거리 및 RQD가 영향인자로 구성될 수 있으며 수리지질학적 측면에서 접근했을 경우 강우 강도, 하천과의 거리와 심도, 투수계수 및 지하수위 변동이 영향을 줄 수 있다. 외부적인 요소도 지반함몰에 영향을 줄 수 있는데 굴착심도와 흙막이 벽과의 거리, 굴착공사 시 지하수 처리공법, 하수관로 등 인공시설물 존재 유무 등이 이에 해당된다. 최근 도심지의 지하구조물 건설에서 지반함몰 요소를 평가하는 것은 필수적일 것으로 예상된다. 본 연구에서 분석한 지반함몰 영향인자가 지반함몰위험 평가에 도움이 되기를 기대한다. The geological factors for causing ground subsidence are very diverse. It can be affected by any geological or extrinsic influ-ences, and even within the same geological factor, the soil depression impact factor can be determined by different physical prop-erties. As a result of reviewing a large number of papers and case histories, it can be seen that there are seven categories of ground subsidence factors. The depth and thickness of the overburden can affect the subsidence depending on the existence of the cavity, whereas the depth and orientation of the boundary between soil and rock are dominant factors in the ground composed of soil and rock. In case of soil layers, more various influencing factors exist such as type of soil, shear strength, relative density and degree of compaction, dry unit weight, water content, and liquid limit. The type of rock, distance from the main fracture and RQD can be influential factors in the bedrock. When approaching from the hydrogeological point of view, the rainfall intensity, the dis-tance and the depth from the main channel, the coefficient of permeability and fluctuation of ground water level can influence to ground subsidence. It is also possible that the ground subsidence can be affected by external factors such as the depth of exca-vation and distance from the earth retaining wall, groundwater treatment methods at excavation work, and existence of artificial facilities such as sewer pipes. It is estimated that to evaluate the ground subsidence factor during the construction of underground structures in urban areas will be essential. It is expected that ground subsidence factors examined in this study will contribute for the reliable evaluation of the ground subsidence risk.

지반함몰 위험등급 분류(GSRp)의 굴착현장 사례 연구

신상식,임명혁,김학준 대한지질공학회 2019 지질공학 Vol.29 No.3

As the occurrence of ground subsidence near the excavation site increases recently, studies are being conducted to predict the possibility of ground subsidence prior to excavation. In this study, the ground subsidence risk rating for pre-excavation (GSRp) developed by the previous study was applied to actual excavation sites to verify its applicability. The final results for the evaluation of the ground subsidence risk level for five excavation sites revealed that GSRp scores were calculated between 40 and 79 points and classified mainly into grades II (Good Ground)~III (Fair Ground). In order to verify the evaluation method, the obtained GSRp grades were compared with the measured horizontal displacements. The horizontal displacements measured in five excavation sites were between 25% and 47% of the allowable displacement, which were well agreed with the low subsidence risk level obtained from GSRp calculation. It is expected that the GSRp method can be used as an evaluation tool for predicting the risk of ground subsidence before excavation if GSRp is verified and supplemented through the additional research for the poor soil with the high risk of ground subsidence. 최근 굴착현장 인근의 지반함몰 발생사례가 증가함에 따라 사전에 지반함몰 가능성을 예측할 수 있는 연구가 진행되고 있다. 본 연구에서는 기존 연구에 의해 개발된 굴착 전 지반함몰 위험등급 평가 시트인GSRp를 실제 굴착 현장에 적용하여 현장 적용성을 검증하였다. 각각 다른 지반조건을 가진 5개 굴착현장에 대하여 지반함몰 위험등급을 평가한 결과, GSRp 점수는 40~79점으로 산출되어 대부분 II등급(우수지반)~III등급(양호지반)으로 분류되었다. 평가방법의 신뢰성 검증을 위하여 계측결과에 의해 실측된수평변위량과 비교 분석하였다. 본 연구현장의 수평변위량은 허용치의 25~47%로 나타나 지반함몰 위험이 낮게 평가된 GSRp 결과와 일치하였다. 향후 지반함몰 위험성이 높은 불량한 지반을 대상으로 하는현장 적용에 대한 연구가 진행되어 검증과 보완이 이루어진다면 GSRp 평가방법이 굴착 전 지반함몰 위험도를 예측하는 평가 도구로 활용될 수 있을 것으로 기대된다.

함몰지반 긴급복구를 위한 개량준설점토의 강도 특성

오세욱,백승주,방성택 한국지반환경공학회 2019 한국지반환경공학회논문집 Vol.20 No.5

Recently, there has been an increasing number of ground subsidence (sink-hole) in the downtown areas, and in such a case, it is important to minimize accidents and passages through prompt recovery. With respect to the present recovery method for ground subsidence, the methods of applying the back filling after excavating the ground subsidence or using the grouting injected materials to restore the ground are mostly used, but there has been few studies on materials used for recovering the ground subsidence. Therefore, in order to clarify the characteristics of back filling materials used in the ground subsidence, this study uses the environment- friendly hardening agent to improve the dredged clay, and then, the mixture ratio of hardening agent and mixture ratio of decomposed granite soil is changed to cure for 3, 7, 14 and 28 days to analyze the intensity characteristics of the unconfined compression, and it was compared with the unconfined compression intensity for the previously used cement, a hardening agent. In order to evaluate the characteristics of intensity on the back filling materials, the C.B.R test was carried out, and for the review on whether the back filling materials influence on corrosion of water and sewer pipes and others, the soil non-resistance test was carried out. As a result of the test, for the case of the recovery work of the ground subsidence that requires urgency, it is considered as prudent if the hardening agents of 12% are integrated to cure for 3 days or longer, and for not having the influence on the corrosion of the gas tube or water pipes, it is proposed to mix for 30% or more of the decomposed granite soil. Door model test were conducted To confirm the bearing capacity characteristics of the solidified layer. 최근 도심지에서 지반함몰의 발생이 증가하고 있으며, 이러한 경우 신속한 복구를 통해 안전사고 및 통행에 대한 불편을 최소화하는 것이 중요하다. 현재의 지반함몰 복구 방법으로는 함몰지반을 개착한 후에 되메우기를 하거나 그라우팅 주입재를 사용하여 지반을 복구하는 방법이 주로 적용되고 있으나. 지반 함몰복구 시 사용되는 재료에 대한 연구는 미비한 실정이다. 따라서 본 연구에서는 함몰지반에 사용되는 되메움재료의 특성을 규명하기 위하여 준설점토를 친환경 고화재를 이용하여 개량한 후 고화재의 혼합비율 및 화강풍화토의 혼합비율을 변화시켜 3, 7, 14, 28일 양생시킨 후 일축압축 강도특성을 분석하였으며, 기존에 사용되던 고화재인 시멘트의 일축압축강도와 비교하였다. 되메움재료의 강도특성을 평가하기 C.B.R 시험을 수행하였고, 되메움 재료가 상하수도관 등의 부식에 영향을 주는지에 대한 검토를 위하여 토양비저항시험을 수행하였다. 시험결과 긴급을 요하는 함몰지반 복구공사의 경우 12%의 고화재를 혼합하여 3일 이상 양생하는 것이 좋다고 판단되며, 가스관이나 상하수도관의 부식에 영향을 미치지 않도록 하기 위하여 화강풍화토를 30% 이상 혼합할 것을 제안한다.

Ground Subsidence Risk Ratings for Practitioners to predict Ground Collapse during Excavation (GSRp)

임명혁 국제문화기술진흥원 2018 International Journal of Advanced Culture Technolo Vol.6 No.4

In the field of excavation, it is important to recognize and analyze the factors that cause the ground collapse in order to predict and cope with the ground subsidence. However, it is difficult for field engineers to predict ground collapse due to insufficient knowledge of ground subsidence influence factors. Although there are many cases and studies related to the ground subsidence, there is no manual to help practitioners. In this study, we present the criteria for describing and quantifying the influential factors to help the practitioners understand the existing ground collapse cases and classification of the ground subsidence factors revealed through the research. This study aims to improve the understanding of the factors affecting the ground collapse and to provide a GSRp for the ground subsidence risk assessment which can be applied quickly in the field.

Study of Influence Factors for Prediction of Ground Subsidence Risk

Park, Jin Young,Jang, Eugene,Ihm, Myeong Hyeok Korean Society of DisasterSecurity 2017 한국방재안전학회 논문집 Vol.10 No.1

This Analyzed case study of measuring displacement, implemented laboratory investigation, and in-situ testing in order to interpret ground subsidence risk rating by excavation work. Since geological features of each country are different, it is necessary to objectify or classify quantitatively ground subsidence risk evaluation in accordance with Korean ground character. Induced main factor that could be evaluated and used to predicted ground subsidence risk through literature investigation and analysis study on research trend related to the ground subsidence. Major factors of ground subsidence might be classified by geological features as overburden, boundary surface of ground, soil, rock and water. These factors affect each other differently in accordance with type of ground that's classified soil, rock, or complex. Then rock could be classified including limestone element or not, also in case of the latter it might be classified whether brittle shear zone or not.

지중관로 매설 밀집도에 따른 지반함몰 발생 상관 분석

김진영(Jinyoung Kim),강재모(Jaemo Kang),최창호(Changho Choi) 한국지반환경공학회 2021 한국지반환경공학회논문집 Vol.22 No.11

최근 도심지를 중심으로 지반함몰이 꾸준하게 발생되고 있어 시민들의 안전을 위협하고 있다. 도로 하부에는 상수관로, 하수도관로, 통신관로 등 각종 지하 시설물이 매설되어 있다. 이러한 지하시설물의 노후화와 지하 난개발로 인해 지반함몰의 원인으로 작용하고 있다. 기존 관로의 노후도에 따라 지반함몰 발생 위험도를 분석된 결과가 있지만 지반 교란상태를 나타내는 관로의 밀집도를 활용한 지반 함몰 위험도를 분석한 결과는 없는 실정이다. 따라서, 본 연구에서는 서울시의 대표 지하 관로 6종 데이터를 활용하여 지하공간의 밀집도를 분석하여 지반함몰과 상관성이 있는지에 대한 연구를 수행하였다. 그 결과 지반함몰 발생 지역에서는 지하 시설물의 밀집도가 높은 것으로 나타나 지반함몰에 관로의 밀집도가 영향을 미치는 것을 알 수 있었다. Recently, ground subsidence has been steadily occurring mainly in downtown areas, threatening the safety of citizens. Under the road, various underground facilities such as water supply pipe, sewage pipe, and communication pipe are buried. Due to the aging of these underground facilities and the reckless development of the underground, it is acting as a cause of ground subsidence. Although there is a result of analyzing the risk of ground subsidence according to the deterioration of the existing pipeline, there is no result of analyzing the risk of ground subsidence using the density of pipelines indicating ground disturbance. Therefore, in this study, the density of the underground space was analyzed using the data of six types of representative underground pipelines in Seoul, and a study was conducted on whether there is a correlation with the ground subsidence. As a result, it was found that the density of underground facilities is high in the area where the ground subsidence occurred, indicating that the density of pipelines have an effect on the ground subsidence.