scispace - formally typeset
Search or ask a question

How many gallons of gas can a Toyota Matrix hold? 

Porosity
Effective stress
Permeability (earth sciences)
Coalbed methane
Kerogen

Answers from top 7 papers

More filters
Papers (7)Insight
Journal ArticleDOI
Triple-continuum modeling of shale gas reservoirs considering the effect of kerogen
Min Zhang, Jun Yao, Hai Sun, Jianlin Zhao, Dongyan Fan, Zhaoqin Huang, Yueying Wang 
01 May 2015-Journal of Natural Gas Science and Engineering
56 Citations
The results indicate that dividing the matrix system into a kerogen continuum and inorganic matrix continuum significantly influences shale gas reservoir performance.
Journal ArticleDOI
A Generator of synthesis gas and hydrogen based on a radiation burner
Vladimir S. Arutyunov, V. M. Shmelev, I. N. Lobanov, G. G. Politenkova 
02 Mar 2010-Theoretical Foundations of Chemical Engineering
18 Citations
It is suggested to use the combustion of hydrocarbons in a volumetric permeable matrix as a simple and compact generator of synthesis gas and hydrogen.
Proceedings ArticleDOI
Advanced Reservoir Modeling In Desorption-Controlled Reservoirs
Scott R. Reeves, Lawrence J. Pekot 
01 Jan 2001
70 Citations
Research there suggested a that a significant component of the gas resource existed in the free state within the matrix blocks themselves, and its effect on gas producing rates could not be adequately modeled by incorporating it either in the adsorbed state within the matrix block, or as free gas in the natural fractures.
Journal ArticleDOI
Influence of gas production induced volumetric strain on permeability of coal
Satya Harpalani, Guoliang Chen 
01 Dec 1997-Geotechnical and Geological Engineering
357 Citations
Furthermore, the results show that when gas pressure is above 1.7 MPa, the effect of volumetric strain due to matrix shrinkage dominates.
Journal ArticleDOI
A dynamic prediction model for gas–water effective permeability based on coalbed methane production data
Hao Xu, Dazhen Tang, Shuling Tang, Junlong Zhao, Yanjun Meng, Shu Tao 
01 Jan 2014-International Journal of Coal Geology
80 Citations
In particular, the model predicts the matrix shrinkage effect, which is important because it can improve the effective permeability of gas production and render the process more economically feasible.
Journal ArticleDOI
Numerical analysis of ABS deposition and corrosion on a rotary air preheater
Yufan Bu, Limin Wang, Xun Chen, Xiaoyang Wei, Lei Deng, Defu Che 
25 Feb 2018-Applied Thermal Engineering
29 Citations
In addition, the distribution of inlet flue gas flow rate could affect the matrix temperature remarkably and play a positive role to reduce the blockage and corrosion tendency.
Open accessJournal ArticleDOI
Water coning mechanism in Tarim fractured sandstone gas reservoirs
Weijun Shen, Xiaohua Liu, Xizhe Li, Jia-liang Lu 
14 Jan 2015-Journal of Central South University
15 Citations
The results show that matrix permeability, well penetration (especially fracture permeability), vertical-to-horizontal permeability ratio, aquifer size and gas production rate have considerable effect on water coning in the fractured gas reservoirs.

Related Questions

Are Toyota Matrix good in snow?8 answers
How long can a Toyota Matrix last on empty?8 answers
How long does a 2008 Toyota Matrix last?7 answers
How much is a gallon of seachem Matrix?9 answers
How to program a Toyota Matrix key fob?6 answers
Is Toyota Matrix good in snow?7 answers

See what other people are reading

What factors influence the bulk fracture anisotropy in cold-sprayed Al 6061 deposits?
5 answers
The bulk fracture anisotropy in cold-sprayed Al 6061 deposits is influenced by various factors. The morphology of the splats, such as globular or pancake-shaped, affects the bonding mechanisms at the splat-substrate interface, transitioning from mechanical interlocking to metallurgical bonding. Additionally, the presence of nanoscale surface oxide layers on the powder particles impacts the deformation and fracture behavior during cold spray deposition, leading to bonding and mechanical interlocking. Moreover, the spray angle during deposition plays a crucial role in controlling porosity, pore alignment, and surface compressive residual stress in the deposited materials, affecting the overall fracture behavior. The stress corrosion cracking response in cold-sprayed Al 6061 deposits is also influenced by factors like maintaining fine grain structure, high density, low oxidation, and work hardening effects.Is surface area of nanofibrous microcarrier scaffolds greater than nanofibrous membrane scaffolds?
5 answers
The surface area of nanofibrous microcarrier scaffolds is typically greater than that of nanofibrous membrane scaffolds. Nanofibrous membranes, while suitable for tissue engineering applications, may have limitations in terms of mechanical properties and permeability. On the other hand, nanofibrous scaffolds prepared by electrospinning from biocompatible polymers offer high volume-to-surface ratio, controlled porous structure, and nanoscale architecture, making them ideal for cell culture in a 3D environment. Additionally, biomimetic nanofibrous scaffolds fabricated by electrospinning with blends like PLLA-collagen and PLLA-gelatin show increased surface roughness and reduced hydrophobicity, enhancing cell attachment and spreading. Furthermore, nanofiber scaffolds loaded with freeze-dried bone allograft nanoparticles exhibit superior biological behavior in terms of proliferation, adhesion, and morphology of MSCs compared to microparticulate scaffolds.What is the impact of geochemistry on sweep efficiency in different oil reservoir after injecting CO2?
4 answers
The impact of geochemistry on sweep efficiency in different oil reservoirs after CO2 injection is multifaceted, influenced by reservoir heterogeneity, fluid-rock interactions, and the physical mechanisms of oil recovery. In heavy oil reservoirs, CO2 injection faces challenges due to unfavorable mobility ratios and reservoir heterogeneity, which can lead to premature breakthrough and reduced sweep efficiency. However, modifications such as water-alternating-gas (WAG) injection and profile modification using blocking agents can mitigate these issues and improve sweep efficiency by enhancing the physical mechanisms of oil recovery. Reservoir heterogeneity, characterized by irregular permeability profiles, affects the distribution and progression of injected CO2, leading to uneven sweep and lower recovery efficiency. Experimental studies on CO2 miscible flooding in ultra-low permeability reservoirs with significant vertical heterogeneity have shown that gas absorption capacity, gravitational differentiation, and miscible mass transfer are key factors affecting sweep efficiency. These factors influence the migration of the oil–gas interface and the distribution of the miscible zone, with the high-permeability layer retaining a large amount of remaining oil due to its greater gas absorption capacity. Furthermore, maximizing sweep efficiency and minimizing CO2 utilization rates are crucial for the economic and technical success of CO2 floods, with heterogeneity measures correlating with recovery efficiency and utilization rates. Microflow characteristics of CO2 flooding, particularly in low permeability reservoirs, are significantly affected by convection diffusion and the improved component mixing rule, with different wettability conditions further influencing oil displacement efficiency. The study of residual oil zones (ROZ) versus main pay zones (MPZ) has provided insights into CO2 sweep efficiency, highlighting the importance of high-resolution reservoir modeling and multiphase fluid flow simulations. Dedicated injection programs in reservoirs with multiple lobes have shown potential for improving sweep efficiency by addressing issues of early CO2 breakthrough and poor conformance. The interaction of injected CO2 with reservoir rock and water can cause formation damage, affecting permeability and, consequently, sweep efficiency. The reactivity of CO2 under various reservoir conditions can lead to changes in porosity and permeability, impacting oil recovery. Lastly, optimizing CO2 huff and puff in fault-block reservoirs with horizontal wells can improve sweep efficiency by adjusting the selection and combination of injection wells.What is the diffusion barrier (energy) ot Ca ions in graphite according to DFT calculations?
5 answers
The diffusion barrier energy of calcium ions in graphite was found to be -2.77 eV, indicating strong binding at the van der Waals interface of a 2D heterostructure composed of NbSe2 monolayer and graphene. This study highlights the potential of this heterostructure for fast multivalent ionic mobility and efficient charge-discharge rates in multivalent-ion batteries. Additionally, the diffusion coefficients of alkali metals in graphite intercalation compounds were determined, with values ranging from 1.5 × 10−15 to 2.0 × 10−10 m2 s−1 at room temperature, showing a dependence on the graphene interlayer spacing. Furthermore, the energy barrier for Cu diffusion through graphene was investigated, demonstrating graphene's effectiveness as a diffusion barrier due to limited Cu ion transport, making it a promising material for various applications requiring diffusion blocking.What are the advantages and limitations of using charcoal in dusting for fingerprint analysis?
5 answers
Charcoal offers advantages in fingerprint analysis, such as effective latent fingerprint development on various surfaces, including glass and metal. It has been shown to provide high-quality images of latent fingerprints with clear features, outperforming commercial charcoal in some cases. Additionally, charcoal can be a one-step development and matrix application technique for matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI-MSI) of fingerprints, yielding comparable or higher signal-to-noise ratios compared to traditional organic matrices. However, the use of charcoal in fingerprint analysis presents limitations due to potential health hazards. Commercial charcoals have been found to contain toxic elements and polycyclic aromatic hydrocarbons, posing risks to individuals involved in their production and transport. Prolonged exposure to charcoal and charcoal dust may lead to serious health issues, particularly for those actively engaged in handling charcoal.What are the challenges faced by current resident in Kota Samarahan due to development of institution ?
5 answers
Residents in Kota Samarahan face challenges due to the development of institutions. These challenges include issues in managing pineapple waste among local farmers, as highlighted in a study on pineapple waste management in Sarawak. Additionally, the institutionalization process of regulations in Samarinda City faces obstacles such as limited funds for comprehensive outreach and insufficient coverage by enforcement agencies, impacting the community's compliance and understanding of regulations. Furthermore, the study on women entrepreneurs in Kota city, Rajasthan, emphasizes the challenges faced by women in balancing their roles as earners and homemakers, indicating broader societal challenges in economic development. These challenges underscore the importance of addressing institutional weaknesses and providing support for sustainable development in Kota Samarahan.What are the current applications of functionally graded piezoelectric materials in sustainable manufacturing?
5 answers
Functionally graded piezoelectric materials are being explored for sustainable manufacturing applications. These materials exhibit diverse properties based on their chemical composition gradient or microstructure, making them ideal for various purposes such as in airplanes, gas turbines, energy conversion cells, and biomaterials. Additive manufacturing methods, particularly binder jetting technology, are being investigated for creating gradient piezoceramics, offering control over their functional characteristics. The development of functionally graded piezoceramics through additive manufacturing is a promising but relatively underexplored research area, leveraging the unique capabilities of additive manufacturing in shaping parts efficiently. These advancements in functionally graded piezoelectric materials hold significant potential for enhancing sustainable energy systems and manufacturing processes.How does fabric filter tecnology work?
5 answers
Fabric filter technology operates by utilizing specialized filter materials to trap particles and actively affect them within the filter. These filters can have various structures, such as a hollow elongated upper section and lower section that define a chamber within fabric sleeves. The filter material itself may consist of a blend of hydrophilic superabsorbent fibers and non-superabsorbent hydrophilic fibers, allowing gaseous flow while actively affecting trapped particles through a coating of active compounds and a liquid carrier. The production of filter cloth involves steps like blending fibers, dipping them in solutions, weaving, sizing, and calendaring to enhance durability and abrasion resistance. Overall, fabric filter technology plays a crucial role in industrial filtration processes, separating substances in demanding conditions to ensure the success of various operations.What is the Coefficient of friction between screw and carbonize rice husk?
5 answers
The coefficient of friction between carbonized rice husk (RH) ceramics and different materials varies. When sliding against high carbon chromium steel (JIS SUJ2) and austenitic stainless steel (JIS SUS304), the friction coefficient of RH ceramics is low, ranging from 0.05 to 0.11. However, when sliding against Al2O3, the friction coefficient is higher, around 0.14 to 0.23. The RH ceramics exhibit lower friction coefficients under dry conditions compared to water lubricated conditions. Additionally, the addition of rice husk carbon (RHC) to non-asbestos organic braking composite materials (NAOBCM) can improve and stabilize the coefficient of friction, with optimal performance achieved at 4wt% RHC.How Mxene react with NaOH in neutralization process?
5 answers
When MXene interacts with NaOH in a neutralization process, significant changes occur in the structure and surface terminations of the material. The treatment with NaOH leads to an increase in the c-lattice parameter, a rise in O terminations, and a decrease in F terminations. This treatment facilitates the removal of F at lower annealing temperatures, crucial for achieving desired properties. Additionally, the NaOH treatment alters the surface chemistry of MXene, resulting in predominantly -OH termination groups and the absence of -F terminations, enhancing the material's hydrogen evolution reaction (HER) activity. These modifications play a vital role in improving the electrochemical performance of MXene-based materials, making them promising candidates for various applications, including energy storage systems like sodium-ion batteries.How does the hydrothermal method affect the structure and properties of silica membranes compared to other synthesis methods?
5 answers
The hydrothermal method impacts the structure and properties of silica membranes significantly compared to other synthesis methods. Studies show that hydrothermal coating with TEOS at elevated temperatures and pressure results in thicker and more homogeneous silica coatings with higher density, offering increased effectiveness and mechanical integrity. Additionally, the hydrothermal process leads to a more porous adsorbent with larger mean diameter and specific pore volume, attributed to faster network gelation entrapping residual molecules, despite potential structural densification. Furthermore, the hydrothermal stability of microporous silica membranes is enhanced by the hydrothermal treatment, especially when combined with specific coatings like BTESE and MAP, resulting in improved gas separation performance and stability under harsh conditions. These findings highlight the superior structural and property modifications achieved through the hydrothermal method for silica membranes.