Opening Of Space Research Articles

Renal involvement in TAFRO syndrome: a review.

Renal involvement in TAFRO syndrome is characterized clinically by general edema with ascites and pleural effusions and a rapidly progressive decline in renal function, with urinary protein levels of usually less than 1g/day. The histologic features of the kidneys can be described as glomerular microangiopathy characterized by mesangiolysis or mesangial loosening, endothelial cell proliferation, edematous opening in the subendothelial space, and glomerular basement membrane (GBM) doubling due to newly formed basement membrane. Findings such as rupture of the GBM, foot-process effacement or fusion, and epithelial cell loss are rare, and thrombus formation is difficult to identify in the glomerulus. Furthermore, immunodeposits are not seen on immunofluorescence staining or electron microscopy. Unlike adults, in addition to the glomerular lesions described above, adolescents appear to show intimal proliferation of the arterioles and interlobular arteries to the vascular poles and occlusion of the vascular lumen.

Orthodontic Space Opening of Early Extracted Maxillary Central Incisor

Orthodontic Space Opening of Early Extracted Maxillary Central Incisor

Utilizing the Open Space Approach in Interdisciplinary Management of Bilateral Congenital Lateral Incisor Agenesis: A Case Report

Tooth agenesis, particularly the bilateral absence of maxillary lateral incisors, is a prevalent condition with notable aesthetic and functional implications. This anomaly, impacting approximately 62% of individuals with genetic predisposition, poses significant challenges in both orthodontics and prosthetic rehabilitation. The treatment of bilateral congenital lateral incisor agenesis is a multidisciplinary approach that requires a thorough clinical examination. Implant-based solutions face challenges due to narrow alveolar dimensions and adjacent root orientations. Successful implant placement often requires pre-treatment orthodontic space creation, ridge augmentation, and careful timing to accommodate continued alveolar growth. Advanced orthodontic techniques and precise implant placement protocols are critical for achieving optimal outcomes. This case report illustrates a time-sequenced interdisciplinary approach combining mesialization of canines with space opening and implant-supported rehabilitation. An interdisciplinary approach, leveraging advancements in orthodontics, implantology, and digital prosthetics, is essential for successful outcomes.

Multi‐mode gravity tectonics during northern North Sea rifting: the Snorre fault block case

AbstractContinental rifts are characterized by up to 30 km wide rotated fault blocks with stratigraphic dip away from the central rift axis. Although gravity‐induced mass movements are well known features of collapsed fault block crests, I here demonstrate the occurrence of polymodal gravity‐driven mass transport down the back slope of a first‐order rift fault block. I identify (1) early sliding related to syntectonic crestal collapse of second‐order rift faults, (2) large‐scale bed‐parallel sliding of the L‐M Jurassic sedimentary package, and (3) the accumulation of two 7 km long, 1–2 km wide and up to 750 m thick volumes of complexly slumped material in the hanging walls of two ramp‐forming faults. Early sliding is documented by 100 m of repeated Brent Group stratigraphy in a cored well in the study area (well 34/4‐15A). These smaller slides have intact internal stratigraphy but show elevated deformation band densities. The seismic data also show evidence for ca. 2 km of massive translational sliding of the ca. 400 m thick and ca. 300 km2 large Jurassic section above a lowermost Jurassic bedding‐parallel detachment. This translational slide did not deform much internally, except for ductile folding where it slid over underlying active rift faults. Chaotic seismic facies in fault hanging walls are interpreted as contorted Jurassic beds, formed by multiple slumping and sliding events that stacked mobilized sediments into a 750 m thick column. These complex slump volumes occur where fault displacement is highest along two relayed faults. A model is favoured where the large translational slide ruptured with an opening of space against the fault that was progressively filled with slumped material from the footwall. While the large‐scale translational sliding only caused moderate internal subseismic deformation, early sliding and, particularly, the complex slumping caused significant internal deformation. This study shows the importance of carefully searching for and distinguishing between different types of mass movement in rift systems.

Building Performance Strategy to Achieve Thermal Comfort on Post-Disaster Design

Purpose: This study is a development of previous studies that focused on testing building performance from the aspect of building comfort. A house is a place to live that is used daily that must meet the needs of the occupants' thermal comfort which is greatly influenced by environmental and building conditions, such as natural lighting, air flow, and thermal performance as well as the conditions of the building's orientation layout and space openings. To determine the thermal performance of a building, it is necessary to conduct several analyses of several parameters of air temperature, air circulation and thermal conditions that occur in buildings in several conditions of building layout or orientation and openings made. Theoretical reference: Adaptive buildings are buildings that have adaptation to external environmental conditions, occupant needs and building operational conditions with the aim of increasing energy efficiency, comfort and sustainability. These adaptive buildings are able to provide a more comfortable environment, flexible and efficient space by maximizing natural ventilation and using building materials that function as insulation against temperature and solar radiation. Method: To determine the thermal comfort conditions of the building, it is necessary to conduct several tests on several parameters, such as natural lighting, air flow, and thermal performance using several analyzes such as solar analysis, air movement analysis and thermal analysis of the planned building prototype with several alternative building orientations. To test the thermal performance of the building, solar analysis and thermal analysis are carried out using Revit-based computational fluid dynamics (CFD). Results and Conclusions: The results of the study showed that the influence of building orientation and opening placement patterns will produce several different thermal performances. And the optimal results obtained from this adaptive strategy were that the optimal heat generated caused heat generation in the envelope of 0.76 kW/m2, meaning that by considering the heat transfer value of the building envelope not exceeding 35 W/m2 (SNI 6389:2020), a wall envelope made of 10 cm thick calciboard with air holes was used to withstand the rate of heat flow into the room. Research implications: As part of the adaptive building context that supports the field of knowledge and practice in the fields of architecture, engineering and the environment, it has positive implications related to the flexibility of spatial arrangement to adjust to the needs of occupants' space, the use of more efficient and environmentally friendly building technology and materials according to the needs of adaptive buildings, and the adjustment of natural ventilation strategies according to local climate potential. Originality/value: The components that distinguish this research from previous research can be seen from the various approaches and innovations carried out by the author, namely: Adaptive Design Method: developing the functionality of spatial arrangements in post-disaster residential buildings that apply the principles of spatial efficiency and arrangement to improve more dynamic relationships between spaces and their relationships with the surrounding environment. Use of New and Data-based Technology: applying new technology in ways to monitor and control the quality of space with the surrounding environment that affects it in real-time. Using technology applications for data analysis, modeling and predicting the performance of post-disaster residential buildings according to environmental and building parameters that affect them, and using big data analysis to understand the thermal behavior of buildings to optimize building design and operations.

Clinical pearls for the management of maxillary impacted canines: Lessons learned from 14 patients

Clinical pearls for the management of maxillary impacted canines: Lessons learned from 14 patients

Efficacy and safety of transanal opening of intersphincteric space in the treatment of high complex anal fistula: A meta‑analysis.

The best treatment of high complex anal fistula (HCAF) is to avoid anal incontinence while improving the cure rate. On this basis, several surgical procedures for preserving the anal sphincter have been proposed. The purpose of the present study was to evaluate the efficacy and safety of transanal opening of intersphincteric space for treating HCAF. PubMed, Cochrane Library, China National Knowledge Infrastructure and the Wanfang databases were searched to collate all the articles on transanal opening of intersphincteric space for treating HCAF. A total of two researchers independently completed the whole process, from screening and inclusion to data extraction and the data was included in the RevMan 5.3 software for analysis. The main outcomes included the patients' essential characteristics, primary healing rate, management after recurrence, final healing rate, anal incontinence score before and after surgery, postoperative complication rate and types of complications. A total of six articles were included in this meta-analysis. The results showed that the weighted final healing rate of patients following transanal opening of intersphincteric space was 89% [risk differences (RD)=0.89; 95% confidence interval (CI)=0.86-0.92; I2=0%; P<0.00001]. The results of the anal incontinence score showed that there was no significant difference between the results before and after transanal opening of intersphincteric space surgery mean differences [(MD)=-0.04, Cl=-0.10-0.02, I2=0%; P=0.21]. Only 11 patients were reported to have complications, including urinary retention and bleeding following transanal opening of intersphincteric space with a complication rate of 8% (11/138) and the weighted average complication rate was 6% (RD=0.06,95% CI=0.02-0.10; I2=9%; P=0.003). Transanal opening of intersphincteric space has a high cure rate, a favorable anal incontinence score, fewer types of postoperative complications and a low complication rate; it can be used as a minimally invasive and sphincter-preserving surgical method for treating HCAF and is worthy of further promotion and research in clinical practice.

The Interdisciplinary Management of Tooth Agenesis; Clinical Update

The term hypodontia is used when one to six teeth, excluding third molars, are missing, and oligodontia when more than six teeth are absent (excluding the third molars). The long‐term management of hypodontia in the aesthetic zone is a particularly challenging situation. Although there are essentially two distinct approaches to manage this problem, that is space closure or opening for prosthetic replacements, implant or autotransplantation. Management of tooth agenesis can be realized by either closing or opening the spaces of congenitally missing teeth and by correction of dentoskeletal problems with orthodontic mechanics. Restorative dentistry procedures accompany orthodontic treatment when filling the spaces of missing teeth or when reshaping the teeth substituting missing teeth. As a conclusion, treatment of problems related with mild or severe tooth agenesis requires multidisciplinary treatment approaches. The purpose of this review article is to examine the etiology, clinical properties and treatment alternatives of tooth agenesis.

CHMP4B contributes to maintaining the follicular cells integrity in the panoistic ovary of the cockroach Blattella germanica.

The Endosomal Sorting Complex Required for Transport (ESCRT) is a highly conserved cellular machinery essential for many cellular functions, including transmembrane protein sorting, endosomal trafficking, and membrane scission. CHMP4B is a key component of ESCRT-III subcomplex and has been thoroughly studied in the meroistic ovaries of Drosophila melanogaster showing its relevance in maintaining this reproductive organ during the life of the fly. However, the role of the CHMP4B in the most basal panoistic ovaries remains elusive. Using RNAi, we examined the function of CHMP4B in the ovary of Blattella germanica in two different physiological stages: in last instar nymphs, with proliferative follicular cells, and in vitellogenic adults when follicular cells enter in polyploidy and endoreplication. In Chmp4b-depleted specimens, the actin fibers change their distribution, appearing accumulated in the basal pole of the follicular cells, resulting in an excess of actin bundles that surround the basal ovarian follicle and modifying their shape. Depletion of Chmp4b also determines an actin accumulation in follicular cell membranes, resulting in different cell morphologies and sizes. In the end, these changes disrupt the opening of intercellular spaces between the follicular cells (patency) impeding the incorporation of yolk proteins to the growing oocyte and resulting in female sterility. In addition, the nuclei of follicular cells appeared unusually elongated, suggesting an incomplete karyokinesis. These results proved CHMP4B essential in preserving the proper expression of cytoskeleton proteins vital for basal ovarian follicle growth and maturation and for yolk protein incorporation. Moreover, the correct distribution of actin fibers in the basal ovarian follicle emerged as a critical factor for the successful completion of ovulation and oviposition. The overall results, obtained in two different proliferative stages, suggest that the requirement of CHMP4B in B. germanica follicular epithelium is not related to the proliferative stage of the tissue.

The influence of carbonate on the adsorption performance and mechanism of LDHs toward Cd and As

The excellent adsorption performance of layered double hydroxides (LDHs) toward heavy metals (HMs) had been demonstrated. The carbonate contamination was one of the inherent problems for LDHs whether during the synthesis or application procedure, which significantly affected the adsorption performance of LDHs toward HMs. However, a few studies investigated the mutual effect and mechanism between HMs on LDHs with carbonate interference, especially for the coexistence system of cationic and anionic HMs. In this study, cadmium (Cd) and arsenate (As) were selected as typical cationic and anionic HMs to study the influences of carbonates on their adsorption performance on LDHs. The carbonate intercalated LDHs (CLDH) promoted Cd adsorption but inhibited As adsorption in single system. The adsorption capacity of Cd increased by ∼ 50 % while As adsorption decreased by half. CdCO3 precipitation contributed to ∼ 40 % of the adsorbed Cd whereas weaker electrostatic adsorption inhibited As adsorption due to lower surface zeta potentials of CLDH than LDH. In contrast, both adsorption capacities and rates of Cd and As on CLDH were promoted in binary system (the co-existence of Cd and As) compared with single system. The surface potentials of CLDH turned from positive to negative with As rapid occupation, facilitating Cd entrance into the interlayers. And then the opening of the interlayer space and rearrangement of CLDH enhanced CdCO3 precipitation and isomorphic substitution. With the increase of surface zeta potentials and rearrangement of CLDH, in turn, the adsorption of As was promoted via electrostatic adsorption (∼65 %) and surface complexation (∼35 %). The adsorption capacity of Cd increased by ∼ 15 % whereas As adsorption decreased by half with increasing pH from 4 to 9 in binary system. In contrast, temperature (15–35 ℃) had negligible influence on the adsorption of CLDH toward Cd and As. Herein, this study illustrated the influence mechanism of carbonate intercalation on the simultaneous immobilization of Cd and As on LDHs, providing an understanding for fates of Cd and As with LDHs in more realistic scenes.

Hiperrealitas Pengaruh Penggunaan TikTok dalam Membentuk Eksistensi Diri Mahasiswa Universitas Jember

Currently, the digital era continues to develop both from information technology and social media has become an inseparable part of everyday life. The Tik Tok application has succeeded in attracting millions of users from all walks of life, from children to adults. The opening of this public space is one of the channels for users to express their opinions and viewpoints freely, which stimulates the growth of lifestyles and behaviors that are different from the reality of their users' lives. The research method used in this type of research is qualitative. The technique of determining informants using purposive sampling technique. The results of this study indicate that the use of TikTok has a significant influence on the formation of a student's self-existence in terms of increasing self-confidence and creating a good self-image in social media.

Editorial: An Important Conversation

Whether psychotherapy should be recognised as a specialist identity within the counselling profession (Beel, 2024) or as a separate profession in its own right (Gale, 2024) are questions raised in this issue’s two Viewpoints articles. Another article, “The Movements of Grief” (Cox &amp; Fenwick, 2024), draws on contemporary grief models to posit three phases of grief: transience, transition, and transformation, with a liminal space opening up during transition. Liminality and grief are also themes in reviews of the books Leaning Into the Liminal: A Guide for Counselors and Companions (Thompson &amp; Harris, 2024) and Collaborative Writing and Psychotherapy: Flattening the Hierarchy Between Therapist and Client (Carson, 2024). Led by a migrant from South Korea, a qualitative study on the understanding of mental health amongst South Korean migrants to Australia (Klingenberg et al., 2024) identifies themes centred around shifting cultural norms such as increasing individualism and issues of belonging. Levels of therapeutic relationship when working with men (Ellwood, 2024), the role of embodiment and mindfulness in group-based trauma treatment (Tempone-Wiltshire, 2024), and a systematic review of the ethical considerations around delivering video-based therapy (du Preez et al, 2024) are also featured.

Easy manufacturing constraint based topology optimization of dual-scale and dual-constituent lattice metastructure with thermal dimensional stability

Thermal dimensional stability (TDS) is a crucial issue in the development of high-end industry equipment and precision instruments that work in fluctuating thermal environments. To endow meta-structures with high load-carrying capacity and TDS functionality simultaneously, this paper proposes a topology optimization framework to optimize the topologies of lattice meta-structures at macroscopic structural and microscopic material scales concurrently. An important feature of the current optimization model is the introduction of a material concentration distribution (MCD) constraint to reduce the number of dual-constituent interfaces (DIs), which enables the easy manufacturing of the optimized structures because an additional fabrication process is required for the connection of heterogeneous lattice members. Designs for two dual-scale TDS structures, potentially employed for satellite payload platforms and the supporting structure of space telescopes, are completed. Compared with mono-scale TDS structures, the dual-scale schemes exhibit superior structural performances due to the opening of the dual-scale design space. Numerical experiments are performed to validate the ultra-low structural thermal deformations of the optimized TDS structures with values of 0.0743 μm/℃ and 0.153 μm/℃. Furthermore, the imposition of the MCD constraint significantly reduces the number of DIs from 38 to 10 within a lattice cell, enabling the easy assembly of the demonstrative 3D printing dual-constituent samples.

#470 Relationship between intraperitoneal volume and intraperitoneal pressure during peritoneal dialysis

Abstract Background and Aims Monitoring intraperitoneal pressure (IPP) has been advocated to quantitate intraperitoneal volume (IPV) during peritoneal dialysis (PD). The aim of this study was to investigate the relationship between IPV and IPP during a short PD dwell. Method Thirteen patients (age 60.2 ± 13.8 years, 5 females, BMI 28.6 ± 7.8 kg/m2) were studied during a 2-hour dwell (2 L dialysate, 2.5% dextrose) in a sitting position. IPP was measured 4x per minute by a pressure sensor integrated in the Liberty Cycler (Fresenius Medical Care, Waltham, MA, USA). Segmental abdominal bioimpedance (Hydra 4200, Xitron Technologies, San Diego, CA, USA) was done concurrently to measure IPV. Serum and dialysate creatinine and glucose concentrations were measured before and after the dwell. Dialysate density (ρ) was measured by a handheld density meter (Mettler-Toledo, Columbus, OH USA). Ultrafiltration volume (UFV) was recorded by the Liberty Cycler. A simple physical model (IPP = ρ × h × g) was used to explore the relationship between IPP and IPV (Fig. 1). Based on the model, a change in IPP (ΔIPP) depends on the change of apparent dialysate height (Δh) and dialysate density (Δρ); g is the gravity constant. The apparent cross-sectional area (A) of the peritoneal cavity was calculated as IPV/h. Results Average UFV was 0.31 ± 0.25 L (range 0.03 to 1.03 L). During the dwell, IPP decreased in 12 patients (UFV 0.03 to 0.49 L; Fig. 2) and increased in one (UFV 1.03 L). The IPP decrease (−3.81 ± 2.78 cmH2O; −21.2 ± 18%, p &amp;lt; 0.01) was accompanied by a decrease of apparent h (−0.04 ± 0.03 m; −20.9 ± 18.5%, p &amp;lt; 0.01) and ρ (−3.41 ± 0.56 kg/m3; −0.34 ± 0.06%, p &amp;lt; 0.0001). In patients with a decrease in IPP, the apparent dialysate h decreased from 0.19 ± 0.04 to 0.14 ± 0.04 m, and the apparent A increased from 107.8 ± 23 to 154.7 ± 34 cm2. In the patient with IPP increase, the apparent h increase from 0.14 to 0.18 m, and the apparent A from 138.4 to 164.6 cm2. ΔIPP inversely correlated with Δρ (Fig. 3) and UFV (Fig. 4). Moreover, ΔIPP correlated with D/P creatinine (Fig. 5) and with D/D0 glucose (Fig. 6). Conclusion In this proof-of-concept study, a simple physical model was used to explore the relationship between IPP and IPV. Contrary to our expectation, we found that IPP declines in most patients during the dwell. Decrease in IPP is related to increase in the apparent cross-sectional area of the peritoneal cavity. We hypothesize that during the dwell additional spaces of the peritoneal cavity become accessible to IPV. To what extent this opening of peritoneal space is associated with membrane characteristics warrants further studies.

Identification of Critical Areas of Openness–Vitality Intensity Imbalance in Waterfront Spaces and Prioritization of Interventions: A Case Study of Xiangjiang River in Changsha, China

Identification of Critical Areas of Openness–Vitality Intensity Imbalance in Waterfront Spaces and Prioritization of Interventions: A Case Study of Xiangjiang River in Changsha, China

Esthetic outcomes in orthodontics through digital customization with a lingual appliance system.

Contemporary fixed orthodontic appliances are shifting from non-customized pre-adjusted appliances to custom-designed and printed appliances with novel digital setup systems. We are one step closer to precision dentistry and orthodontics using personalized mechanics and custom appliances. However, despite the evidential enhancement and other improvements to fixed appliances, tooth movement is still limited to five degrees of freedom. Opening or closing spaces still requires manually placing elastomeric chains or coil springs. In this article, we aimed to demonstrate how advancements in CAD/CAM technology, reverse engineering, and digital customization are helping orthodontics constantly evolve, enabling treatment with enhanced esthetics and minimal compliance. The clinical system (InBrace®, Irvine, CA) described in this article uses a patient-specific, digitally designed multiloop NITI wire that delivers friction-free, light, and continuous forces and activates automatically whenever the malocclusion deviates from the digital setup. Through digital customization, InBrace allows for automated tooth movement in all six degrees of freedom, including space opening or closure, via programmed non-sliding mechanics. Precision orthodontics and personalized treatment have been significant developments in orthodontics recently. This article focuses on how a technologically advanced lingual appliance system could achieve targeted cosmetic results methodically via automation and personalization.

Evaluation of Trabecular Changes Using Fractal Analysis After Orthodontic Treatment for Congenital Maxillary Lateral Incisor Missing with Space Opening and Closure Methods

Aim: The aim of the study was to compare the trabecular changes in alveolar bone structure after the treatment of congenital maxillary lateral incisor missing (CMLIM) with space-opening and -closure methods by fractal dimension (FD) analysis. Material and Methods: The study included 48 patients and three groups were formed: control (Group 1), space-opening (Group 2), and space-closure groups (Group 3). FD analysis was performed on panoramic images taken before (T0) and after (T1) treatment in the area of interest of trabecular alveolar bone determined in the distal apical region of the maxillary central incisor. For inter-group comparisons, the Kruskal-Wallis test was employed, while the Wilcoxon test was utilized for intra-group comparisons. The statistical significance was determined as p0.05). In Group 2, a significant decrease in FD values was observed during the T1 period compared to T0, whereas Group 3 showed a significant increase (p

‘My Roman Empire’: From Flashmob to Idiomatic Expression

The semantic and historical analysis of the expression ‘moya Rimskaya imperiya’ [‘my Roman Empire’] is relevant in the context of neologism studies. The novelty of the research lies in the unique opportunity to observe the real-time formation of a linguistic unit in live communication. It is reported that in 2023, expressions formatted as elaborate sentences containing the stable construction ‘moya Rimskaya imperiya’ [‘my Roman Empire’] gained popularity in the Russian-speaking segment of youth internet communication, signifying ‘the subject of my constant memories, reflections, experiences, and thoughts’. The article reconstructs the history of the expression’s emergence, emphasizing that it cannot be considered a result of calquing since there was no situation of translating a linguistic unit from another linguistic-cultural context. The origin of the expression stems from a survey conducted by a blogger from Sweden, which spontaneously evolved into a flashmob format among internet users. The internationalization of the experiment led to the emergence of an experimental narrative in Russian linguistic culture, rather than individual words or phrases. The stages of transforming the verbal part of the experimental communication narrative into a stable expression are outlined. It is argued that due to the openness of the internet space and blogosphere, a new phenomenon of calquing emerges — calquing of the entire process of idiomatic expression formation, not just its form or meaning.

Investigation of the Mesiodistal Angulations of Maxillary Canines and Central Incisors for Missing Bilateral Maxillary Lateral Incisor.

(1) Background: A missing bilateral maxillary lateral incisor (MBMLI) causes aesthetic and functional problems and a multidisciplinary approach is required for treatment. This study aimed to compare the changes in the mesiodistal axial angulations of the maxillary canines and central incisors with orthodontic treatment of MBMLI. (2) Methods: A total of 56 patients with MBMLI were included in the study, and three groups were formed: the control group (Group 1, n = 20) with untreated ideal occlusion and the space opening (Group 2, n = 20) and space closure (Group 3, n = 16) groups as treated study groups. The mesiodistal angulations between the long axes of the maxillary right canine (tooth no 13), right central incisor (tooth no 11), left central incisor (tooth no 21) and maxillary left canine (tooth no 23), and the bicondylar plane, were measured on the panoramic radiographs taken pre (T0) and post treatment (T1). p < 0.05 was accepted for statistical significance. (3) Results: At T0, while there was no significant difference between the mesiodistal angulations of the right-left maxillary canines and central incisors in all groups (p > 0.05), the mesiodistal angulations of the canines in the Group 1 were significantly higher than the study groups (p < 0.05). With treatment, while the mesiodistal angulation of the canines increased in Group 2, it decreased in Group 3 (p < 0.05). On the other hand, the mesiodistal angulation of the central incisors decreased in Group 2 and did not change in Group 3 (p > 0.05). At T1, the mesiodistal angulation of the canines was found to be lower in Group 3 than in Groups 1 and 2, while the angulation of the central incisors was found to be lower in Group 2 compared to Group 1 (p < 0.05). (4) Conclusions: In the orthodontic treatment of MBMLIs, changes in the mesiodistal angulations of the maxillary canine and central incisors should be taken into account for satisfactory outcomes. It was concluded that there should be a tendency to select the space closure method in which normal mesiodistal angulations are obtained in maxillary central incisors for aesthetics and planned incisor position, and also at a low cost.

Effect of pH on Spontaneous Imbibition in Calcareous Rocks

AbstractReactive transport in porous media exhibits multifaceted interactions that are dependent on the matrix and fluid properties, and which ultimately alter these properties. A set of calcareous rock samples with unique mineralogy and varying petrophysical properties are selected for this study. A capillary rise experiment is performed in each sample, first with deionized water and then with a dilute, pH 2, HCl solution. Pre‐ and post‐acid petrophysical properties such as porosity, permeability, pore size distribution, and contact angle are measured for each sample along with the capillary rise profile. The latter is tracked by applying image analysis on video recording. The rock mineralogy significantly affects the acidic fluid intrusion into the rock samples. Calcite dissolution is the main reaction that results in the opening of the pore space. This is more prominent in all the carbonate samples where a higher proportion of calcite minerals is present. A higher capillary rise is consistently observed compared to the neutral fluid along with an increase in porosity and the mean pore size. The contact angle also undergoes changes making the carbonate matrix from oil‐wet to neutral‐wet. Coupling capillary interactions with fluid reactivity is often neglected in fluid transport phenomena. This study offers new insights into the relative importance of reactivity at the timescale of spontaneous imbibition. This is important in understanding dissolution and precipitation processes during capillary flow.