Site effects and soil liquefaction of the sandy soil in Catania harbour

2014 ◽  
pp. 163-178
Author(s):  
M. Maugeri ◽  
S. Grasso
Keyword(s):  
Sandy Soil ◽  
Site Effects ◽  
Soil Liquefaction

Prediction of liquefaction potential and pore water pressure beneath machine foundations

2014 ◽  
Vol 4 (3) ◽  
Author(s):  
Mohammed Fattah ◽  
Mohammed Al-Neami ◽  
Nora Jajjawi
Keyword(s):  
Pore Water ◽  
Sandy Soil ◽  
Pore Water Pressure ◽  
Water Pressure ◽  
Soil Liquefaction ◽  
Elastic Model ◽  
Liquefaction Resistance ◽  
Overburden Pressure ◽  
Liquefaction Potential ◽  
Frequency Changes

AbstractThe present research is concerned with predicting liquefaction potential and pore water pressure under the dynamic loading on fully saturated sandy soil using the finite element method by QUAKE/W computer program. As a case study, machine foundations on fully saturated sandy soil in different cases of soil densification (loose, medium and dense sand) are analyzed. Harmonic loading is used in a parametric study to investigate the effect of several parameters including: the amplitude frequency of the dynamic load. The equivalent linear elastic model is adopted to model the soil behaviour and eight node isoparametric elements are used to model the soil. Emphasis was made on zones at which liquefaction takes place, the pore water pressure and vertical displacements develop during liquefaction. The results showed that liquefaction and deformation develop fast with the increase of loading amplitude and frequency. Liquefaction zones increase with the increase of load frequency and amplitude. Tracing the propagation of liquefaction zones, one can notice that, liquefaction occurs first near the loading end and then develops faraway. The soil overburden pressure affects the soil liquefaction resistance at large depths. The liquefaction resistance and time for initial liquefaction increase with increasing depths. When the frequency changes from 5 to 10 rad/sec. (approximately from static to dynamic), the response in displacement and pore water pressure is very pronounced. This can be attributed to inertia effects. Further increase of frequency leads to smaller effect on displacement and pore water pressure. When the frequency is low; 5, 10 and 25 rad/sec., the oscillation of the displacement ends within the period of load application 60 sec., while when ω = 50 rad/sec., oscillation continues after this period.

Nonlinear site effects on strong ground motion at a reclaimed island

2000 ◽  
Vol 37 (1) ◽  
pp. 26-39 ◽  
Author(s):  
Jun Yang ◽  
Tadanobu Sato ◽  
Xiang-Song Li
Keyword(s):  
Ground Motion ◽  
Site Effects ◽  
Site Response ◽  
Ground Motions ◽  
Soil Liquefaction ◽  
Large Strains ◽  
Stress Strain ◽  
Element Analysis ◽  
Soil Response ◽  
Kobe Earthquake

Recently there has been an increased interest in the study of the nonlinearity in soil response for large strains through in situ earthquake observations. In this paper, the downhole array acceleration data recorded at a reclaimed island, Kobe, during the 1995 Kobe earthquake are used to study nonlinear site effects. Particular attention is given to the liquefaction-induced nonlinear effects on the recorded ground motions. By using the spectral ratio and the spectral-smoothing technique, the characteristics of the ground motions are analyzed. It is shown that the peak frequencies in spectral ratios were shifted to lower frequencies when the strongest motions occurred. The increase in the predominant period was caused primarily by a strong attenuation of low-period waves, rather than by amplification of long-period motions. Based on the spectral analyses, the nonlinearity occurring in the shallow liquefied layer during the shaking event is identified, manifested by a significant reduction of the shear modulus. A fully coupled, inelastic, finite element analysis of the response of the array site is carried out. The stress-strain histories of soils and excess pore-water pressures at different depths are calculated. It is suggested that the stress-strain response and the build up of pore pressure are well correlated to the variation of the characteristics of ground motions during the shaking history.Key words: site response, ground motion, nonlinearity, soil liquefaction, array records, Kobe earthquake.

Estimation model of sandy soil liquefaction based on RES model

2018 ◽  
Vol 11 (18) ◽  
Author(s):  
Jianxiu Wang ◽  
Yansheng Deng ◽  
Linbo Wu ◽  
Xiaotian Liu ◽  
Yao Yin ◽  
...  
Keyword(s):  
Sandy Soil ◽  
Soil Liquefaction ◽  
Estimation Model

Soft Sediment Characterization using Seismic Techniques at Beni Suef City, Egypt

2020 ◽  
Vol 25 (3) ◽  
pp. 391-401
Author(s):  
Ahmed M. Meneisy ◽  
Mostafa Toni ◽  
Awad A. Omran
Keyword(s):  
Site Effects ◽  
Seismic Waves ◽  
Seismic Vulnerability ◽  
Ground Surface ◽  
Wave Structure ◽  
Soil Liquefaction ◽  
S Wave ◽  
Preliminary Calculation ◽  
Soft Sediments ◽  
Clear Peak

It is well known that the local geological characteristics in terms of topographic setting and the existence of soft sediments over bedrock may affect earthquake waves and cause seismic amplification. These effects are called “site effects”. Microtremors which provide an efficient practical tool for site effects estimation were recorded at 43 sites in Beni Suef City, Egypt. The recorded seismic signals were analyzed using the Horizontal-to-Vertical Spectral Ratio (HVSR) method. The targeted site parameters are the fundamental frequency ( f0) and the corresponding amplitude of seismic waves ( A0). Selected H/V curves with clear peak frequency have been inverted to infer the S-wave velocity profile of the underlying sediments. Information about subsurface sediments needed for the inversion process was extracted from available boreholes data. Moreover, the estimated values of f0 and A0 have been used for a preliminary calculation of the seismic vulnerability index ( Kg) which represents an indicator of soil liquefaction potentiality in the event of future earthquakes at the study area. The estimated H/V curves reveals significant variations in f0 and A0 parameters, reflecting variations in the soil characteristics (thickness and type) at the study area. The estimated values of f0 are (0.4–3.7 Hz), and commonly decrease from east to west. The A0 values vary from flat H/V curves (without any clear peak) at rock sites to 7.8 near to the Nile River and in the cultivated areas. The obtained velocity profiles could investigate S-wave structure down to 200 m depth. The estimated Kg varies from 10 to more than 50 μstrain/gal. The highest Kg values are noticed in the west and northwest in the study area were the soft sediments exist with considerable thickness, while the smallest Kg values are noticed in the south east where limestone and stiff soil occur near the ground surface.

scholarly journals Effect of grain shape to potential liquefaction

2020 ◽  
Vol 156 ◽  
pp. 02014
Author(s):  
Arif Rahman
Keyword(s):  
Sandy Soil ◽  
Laboratory Tests ◽  
Grain Shape ◽  
Sandy Soils ◽  
Soil Liquefaction ◽  
Liquefaction Potential ◽  
Soil Particles ◽  
Different Shapes

Earthqueke is one of the most frequent disaster in Indonesia, Earthqueke have caused losses both in terms of life and material. An earthquake also can trigger to soil liquefaction. Attention to liquefaction in Indonesia has raised after the Palu Earthquake in 2018. Liquefaction may happen in sandy soil in certain condition. Here, a series laboratory tests to study potentially liquefied in sandy soils is conducted. The liquefaction potential of sand are analyzed with the effect of the shape of the soil particles. The sandy sample is made up by special selected in three different shapes that are sharp, angular and round. Finally, it can be seen the effect of the shape of the soil grain on the liquefaction potential. The results of this study can be used to further investigation in order to mitigate the liquefaction.

scholarly journals Seismic Soil Characterization to Estimate Site Effects Induced by Near-Fault Earthquakes: The Case Study of Pizzoli (Central Italy) during the Mw 6.7 2 February 1703, Earthquake

Geosciences ◽  
2021 ◽  
Vol 12 (1) ◽  
pp. 2
Author(s):  
Anna Chiaradonna ◽  
Marco Spadi ◽  
Paola Monaco ◽  
Felicia Papasodaro ◽  
Marco Tallini
Keyword(s):  
Site Effects ◽  
Water Pressure ◽  
Central Italy ◽  
Active Faults ◽  
Soil Liquefaction ◽  
Ground Failure ◽  
Near Fault ◽  
Local Seismic Response ◽  
Seismic Site Effects ◽  
Near Fault Earthquakes

Many of the urban settlements in Central Italy are placed nearby active faults and, consequently, the ground motion evaluation and seismic site effects under near-fault earthquakes are noteworthy issues to be investigated. This paper presents the results of site investigations, the seismic site characterization, and the local seismic response for assessing the effects induced by the Mw 6.7 2 February 1703, near-fault earthquake at the Madonna delle Fornaci site (Pizzoli, Central Italy) in which notable ground failure phenomena were observed, as witnessed by several coeval sources. Even though recent papers described these phenomena, the geological characteristics of the site and the failure mechanism have never been assessed through in-situ investigations and numerical modeling. Within a project concerning the assessment of soil liquefaction potential and co-seismic ground failure, deep and shallow continuous core drilling, geophysical investigations and in-hole tests have been carried out. Subsequently, the geotechnical model has been defined and the numerical quantification of the different hypotheses of failure mechanisms has been evaluated. Analyses showed that liquefaction did not occur, and the excess pore water pressure induced by the shaking was not the source of the ground failure. Therefore, it was hypothesized that the sinkhole was likely caused by earthquake-induced gas eruption.

New Prediction Formula of Sand Liquefied on Bachu-Jiashi Earthquake Survey

2012 ◽  
Vol 170-173 ◽  
pp. 2880-2884 ◽  
Author(s):  
Zhao Yan Li ◽  
Zhen Zhong Cao ◽  
Yu Run Li
Keyword(s):  
Sandy Soil ◽  
Evaluation Model ◽  
Standard Penetration Test ◽  
Soil Liquefaction ◽  
Calculation Formula ◽  
Penetration Test ◽  
Prediction Formula ◽  
Earthquake Intensity ◽  
Current Assessment ◽  
New Formula

Through the Bachu-Jiashi Ms6.8 earthquake liquefaction investigation and test, obtain the 47 the standard penetration test date, examine the existing standard applicability based on standard penetration test of soil liquefaction identification method, and put forward the new sandy soil liquefaction evaluation formula. Analysis shows that the current assessment formula base on SPT counts of soil liquefaction are not applicable to Xinjiang region, will give the risky results. In the new survey data of soil liquefaction evaluation model established of five parameters by the earthquake intensity, the measured SPT counts, datum SPT values, groundwater level, and sand buried depth. The datum SPT values, the influencing coefficients of water and sand depths are gain by a normalized method and by an optimizing method. Establish new formula of soil liquefaction evaluation to the success judging rate is higher, the model shows that constructing reasonable and calculation formula is reliable, can be employed for regional code formulation in Xinjiang area.

EVALUATION OF CLOVERS ON SANDY COASTAL SOIL

1977 ◽  
pp. 130-138 ◽  
Author(s):  
W.M. Williams ◽  
L.B. Anderson ◽  
B.M. Cooper
Keyword(s):  
New Zealand ◽  
Drought Stress ◽  
Sandy Soil ◽  
White Clover ◽  
Plant Material ◽  
Red Clover ◽  
Early Spring ◽  
Commercial Cultivars ◽  
Mediterranean Origin ◽  
Winter Annual

In evaluations of clover performances on summer-dry Himatangi sandy soil, it was found that none could match lucerne over summer. Emphasis was therefore placed on production in autumn-winter- early spring when lucerne growth was slow. Evaluations of some winter annual clover species suggested that Trifolium spumosum, T. pallidum, T. resupinatum, and T. vesiculosum would justify further investigation, along with T. subterraneum which is already used in pastures on this soil type. Among the perennial clover species, Kenya white clover (7'. semipilosum) showed outstanding recovery from drought and was the only species to produce significantly in autumn. However, it failed to grow in winter-early spring. Within red clover, materials of New Zealand x Moroccan origin substantially outproduced the commercial cultivars. Within white clover, material from Israel, Italy and Lebanon, as well as progeny of a selected New Zealand plant, showed more rapid recovery from drought stress and subsequently better winter growth than New Zealand commercial material ('Grasslands Huia'). The wider use of plant material of Mediterranean origin and of plants collected in New Zealand dryland pastures is advocated in development of clover cultivars for New Zealand dryland situations.

Fertilizer effects in a triticale monoculture on sandy soil

2014 ◽  
Vol 63 (2) ◽  
pp. 283-294
Author(s):  
Imre Kádár ◽  
Péter Ragályi
Keyword(s):  
Sandy Soil ◽  
List Type

Az MTA ATK TAKI Őrbottyáni Kísérleti Telepén karbonátos homoktalajon beállított NPK műtrágyázási tartamkísérlet 36–43. évében, 2006 és 2013 között vizsgáltuk a műtrágyázás hatását a tritikále fejlődésére, termésére és elemfelvételére. A termőhely talaja a főbb tápelemekben (N, P, K) gyengén ellátott, a szántott réteg 1% körüli CaCO3-ot és 1% humuszt tartalmaz. Az altalaj erősen karbonátos, az agyagos rész 5–10%. A talajvíz 8–10 m mélyen található, a terület aszályérzékeny. Évente a P- (0, 60, 120 kg P2O5·ha−1) és K-műtrágyákat (0, 100, 200, 300, 400 kg K2O·ha−1) ősszel szántás előtt, valamint a N (0, 80, 160 kg N·ha−1) felét ősszel, a másik felét tavasszal szórtuk ki 25%-os pétisó, 18%-os szuperfoszfát és 50%-os kálisó formájában. A kísérletből levonható főbb tanulságok:Talajgazdagító PK-műtrágyázás eredményeképpen a kontrolltalaj igen gyenge PK-ellátottsága a kielégítő 150–200 mg·kg−1 NH4-acetát+EDTA-oldható tartományba emelkedett a kísérlet 41. évében (2011-ben). A szuperfoszfáttal végzett trágyázás eredményeképpen igazolhatóan nőtt a feltalaj oldható S- és Sr-tartalma, mely az alkalmazott hazai Kóla-alapú/nyersanyagú eredetre vezethető vissza. A hazai szuperfoszfátok 18–22% körüli elemi Ca-, 13% S-, 7–8% P-, 1–2% Srkészlettel rendelkeztek.Nemcsak a homoktalaj rendkívül heterogén, hanem a rajta fejlődő termés mennyisége is extrém szórásokat mutatott. Az évek és kezelések között egy nagyságrendet elérő különbségek adódtak. Az évek átlagait tekintve ötszörös eltéréseket tapasztaltunk. Az „évhatások” kifejezettek voltak. Termésdepresszió léphet fel egyaránt az aszály/vízhiány és a túlbő csapadék fennállása esetén.A P-kínálattal nőtt a növényi részek P-, Mn- és Sr-készlete, míg a beépült Znmennyiség visszaesett. Fellépett a P-Mn szinergizmus, illetve a P-Zn antagonizmus. A Mo-koncentráció a növekvő NPK-műtrágyázással a szalmában 1/3-ára, a szemtermésben a felére zuhant.A vizsgált nyolc év alapján még nem ítélhető meg, hogy a tritikále mennyire alkalmas a monokultúrás termesztésre, de összevetve a telepen 52 éves ún. „örökrozs” kísérletünkkel, ez lehetővé válhat a jövőben.

Effect of microelement loads on alfalfa (Medicago sativa L.) grown on a calcareous sandy soil

2012 ◽  
Vol 61 (2) ◽  
pp. 345-362
Author(s):  
Imre Kádár ◽  
Márk Rékási
Keyword(s):  
Medicago Sativa ◽  
Sandy Soil ◽  
Medicago Sativa L

Karbonátos Duna–Tisza közi homoktalajon vizsgáltuk a 0, 30, 90 és 270 kg·ha-1 mikroelem-terhelés hatását a lucernára a 2004 és 2008 közötti időszakban. A mikroelemek sóit egy ízben, a kísérlet indulásakor, 1995 tavaszán szórtuk ki Cr2(SO4)3, K2Cr2O7, CuSO4, Pb(NO3)2, Na2SeO3 és ZnSO4 formájában. A 6 elem×4 terhelési szint = 24 kezelés×3 ismétlés = 72 parcellát jelentett, 7×5 = 35 m2-es parcellákkal. A termőhely a homoktalajokra jellemzően rossz vízgazdálkodású, aszályérzékeny és az NPK főbb tápelemekkel gyengén ellátott. A szántott réteg 0,7–1,0% humuszt, 2–3% CaCO3-ot tartalmaz, a talajvíz 5–10 m mélyen található. Alaptrágyaként 100– 100–100 kg·ha-1 N, P2O5 és K2O hatóanyagot alkalmazunk évente az egész kísérletben. A lucerna telepítése előtt 2003 őszén 400 kg·ha-1 P2O5- és 600 kg·ha-1 K2O-adaggal előretrágyázást végeztünk. A N-trágyát továbbra is évente adagoltuk megosztva (ősszel és tavasszal fele-fele arányban). A főbb eredmények: – A talaj kielégítő NPK kínálata és a kedvező csapadékviszonyok hozzájárultak ahhoz, hogy a lucerna 5 éven át kielégítően fejlődött és összesen 45 t·ha-1 légszáraz szénatermést adott. A legkisebb hozamot (5,5 t·ha-1) az 1. év adta, a legnagyobb hozamokat (11, illetve 10 t·ha-1 ) a 2. és 3. évben kaptuk A kísérlet 10–14. éveiben a Cr(III)- és a Cr(VI)-szennyezés érdemi dúsulást nem okozott a lucerna hajtásában. A kontrolltalajon mért 0,1–0,5 mg·kg-1 Cr-koncentráció 1–2 mg·kg-1 értékre emelkedett átlagosan a szennyezett kezelésekben. Az elöregedő lucernában az évekkel a Cr-tartalom mérséklődött. A Cr(III) ion alapvetően megkötődött a feltalajban, míg a Cr(VI) ion döntően a 2–3 m-es talajmélységbe mosódott. – Az ólom és a réz a szántott rétegben maradt. A kontrolltalajon mért 0,2–0,4 mg·kg-1 Pb-koncentráció 0,5–1,4 mg·kg-1-ra emelkedett a szénában, szennyezett talajon, az évek átlagában. A réz 5–7-ről 9–10 mg·kg-1-ra nőtt a maximális Cu-terheléssel, az évek átlagait tekintve. A szelén extrém módon, átlagosan 3 nagyságrenddel dúsult a szénában. A kontrolltalajon az 1 mg·kg-1 méréshatár alatt maradt, míg a maximális terheléssel 200–400 mg·kg-1 értékre ugrott. A széna takarmányozási célra alkalmatlanná vált. Kevésbé szennyezett talajon a lucerna fitoremediációs célokra alkalmas lehet. Az 5 év alatt a 45,5 t·ha-1 szénatermésbe erősen szennyezett kezelésben 6–12 kg·ha-1 Se akkumulálódott. A 10–15 évvel korábban adott Na-szelenit alapvetően Ca-szelenáttá alakulhatott ezen a karbonátos, jól szellőzött talajon és 4 m mélységig kimosódott. A cink mérsékelt mobilitást mutatott. A kontroll-talajon mért 18–21 mg·kg-1 Zn-tartalom a 270 kg·ha-1 Zn-adaggal 25–31 mg·kg-1-ra emelkedett az évek átlagában. A Zn-terhelés tulajdonképpen a lucerna rejtett Zn-hiányát szüntette meg. – Az 5 év alatt a lucerna számításaink szerint 1580 kg N, 1177 kg Ca, 744 kg K (893 kg K2O), 145 kg Mg, 140 kg S, 133 kg P (305 kg P2O5); 0,1–12,6 kg Se; 2–3 kg Na; 0,8–1,3 kg Zn; 278–427 g Cu; 14–39 g Cr és 15–35 g Pb elemet épített be a 45 t föld feletti hajtásába. A felvett nitrogén több mint 2/3-a a levegőből származhatott. A talajkimerülés kérdése felmerül a tartós lucernatermesztés során. A K-hiányos termőhelyeken elsősorban a K, a kilúgzott talajokon a Ca pótlásáról gondoskodni szükséges a telepítés előtt. Hasonló viszonyokat feltételezve elvileg az Pb fitoremediációja 65 ezer, a Cr 50 ezer, a Cu 7560, a Zn 2885, a Se 105 ilyen „lucernaévet” igényelne. A lucerna tehát elvileg alkalmas lehet a szelénnel mérsékelten szennyezett talaj tisztítására. – Az 5 m mélységig végzett mintavételek adatai szerint 2006-ban (a kísérlet 12. éve után) a Cr(VI) kimosódási zónája meghaladta a 3 m, míg a Se kilúgzása a 4 m mélységet a 270 kg·ha-1 kezelésekben. A Cr(III), Pb, Zn és Cu elemeknél a vertikális elmozdulás nem volt igazolható. – Korábbi adatainkat és a lucerna élettani optimumait is figyelembe véve az 1 t tervezhető szénatermés úgynevezett fajlagos elemtartalmának irányszámait 35-7-25-30-5 = N-P2O5-K2O-CaO-MgO kg·t-1 értékben javasoljuk a hazai szaktanácsadás számára bevezetni.

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