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Density of ethanol12/21/2023 ![]() Here you will find options to view and activate subscriptions, manage institutional settings and access options, access usage statistics, and more. If you believe you should have access to that content, please contact your librarian.įor librarians and administrators, your personal account also provides access to institutional account management. The institutional subscription may not cover the content that you are trying to access. Oxford Academic is home to a wide variety of products. View the institutional accounts that are providing access. A computational study of (ethanol)n-water, n 1 to 5 heteroclusters was carried out employing the B3LYP/6-31+G(d) approach.View your signed in personal account and access account management features.Some societies use Oxford Academic personal accounts to provide access to their members.Ĭlick the account icon in the top right to: See below.Ī personal account can be used to get email alerts, save searches, purchase content, and activate subscriptions. The deal would increase POETs potential production capacity for ethanol by more. Some societies use Oxford Academic personal accounts to provide access to their members. High Density Poly Ethylene (HDPE) is a thermoplastic polymer made from. If you do not have a society account or have forgotten your username or password, please contact your society. Do not use an Oxford Academic personal account. When on the society site, please use the credentials provided by that society.This combination results in lower emissions as the. The density of ethanol produces more heat and with the combustibility of gasoline they are well blended as an alternative fuel. If you see ‘Sign in through society site’ in the sign in pane within a journal: The density of ethanol is 1.59 making it heavier then air consequently ethanol vapors do not rise as do gasoline vapors. Many societies offer single sign-on between the society website and Oxford Academic. Society member access to a journal is achieved in one of the following ways: If you cannot sign in, please contact your librarian. If your institution is not listed or you cannot sign in to your institution’s website, please contact your librarian or administrator.Įnter your library card number to sign in. Following successful sign in, you will be returned to Oxford Academic.It is a simple alcohol with the chemical formula C 2 H 6 O. When on the institution site, please use the credentials provided by your institution. Ethanol (also called ethyl alcohol, grain alcohol, drinking alcohol, or simply alcohol) is an organic chemical compound.Select your institution from the list provided, which will take you to your institution's website to sign in.Click Sign in through your institution.Shibboleth / Open Athens technology is used to provide single sign-on between your institution’s website and Oxford Academic. This authentication occurs automatically, and it is not possible to sign out of an IP authenticated account.Ĭhoose this option to get remote access when outside your institution. Typically, access is provided across an institutional network to a range of IP addresses. If you are a member of an institution with an active account, you may be able to access content in one of the following ways: Note from Publisher: This article contains the abstract only.Get help with access Institutional accessĪccess to content on Oxford Academic is often provided through institutional subscriptions and purchases. This paper presents the measurement method, results and the development of an equation for calculation of VCF for petro-ethanol blends. The measured and calculated values of VCF were in agreement within 0.1%. Based on a simple volume-mixture model, an equation was derived to calculate the VCF for petrol-ethanol blends. The volume correction factors (VCF) for petrol and ethanol obtained from the measurement results agreed to within 0.1% and 0.01% of the values calculated as per American Petroleum Institute Standard 2540 Chapter 11.1 and 11.3.3 respectively. Results were within the lower end of 0.06% repeatability and 0.3% reproducibility of the ASTM D4052-2011 method. ![]() The petrol and ethanol fuels used for the preparation of samples of ethanol blends were supplied directly from a local petroleum refinery. Density measurements for petro-ethanol blended fuels of various mixture ratios were conducted at temperatures from 5☌ to 40☌ using an oscillatory densitometer at the National Measurement Institute, Australia (NMIA).
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