Summary There is a move towards online data collection across the world. Online survey response is complicated by respondents using different devices. So far, no research has been conducted in the UK to study characteristics of people using different devices in mixed‐device online surveys. This analysis uses all publicly available UK social surveys with an online component: Understanding Society Innovation Panel, Community Life Survey, European Social Survey, 1958 National Child Development Study and the Second Longitudinal Study of Young People in England. Descriptive analysis and logistic regressions are used to explore significant correlates of device use in online surveys. The results of bivariate analysis suggest that age, gender, marital status, employment, religion, household size, children in household, household income, number of cars and frequency of internet use are significantly associated with device used across surveys. The associations with age, gender, employment status, household size and education are consistent with the findings from other countries. The knowledge about respondents' characteristics using different devices in online surveys in the UK will help to understand better the response process in online surveys and to target certain subgroups more effectively. It is also important for designs of online surveys, understanding of data quality and post‐survey adjustments.
This short report describes the development of a COVID-19 module for Round 10 of the European Social Survey (ESS). The module is formed of 20 items, including 10 agreed with ESS National Coordinators and 10 developed by two academic teams following an external call for content. The majority of ESS participating countries will field the module for Round 10 fieldwork in 2020–2021. This report provides the rationale for the module, presents challenges of developing such a module for ESS, and gives an overview of the question development and testing process. The two external sub-modules—Government authority and legitimacy in the age of a pandemic and COVID-19 conspiracy beliefs and government rule compliance—are also introduced.
Deepwater drilling has introduced the oil industry to a whole array of new technical challenges in constructing a well bore to a reservoir deep below the ocean. To build wells with similar dimensions used in shallower water has resulted in a new generation of rig with enormous capacity for riser tension, drilling mud volumes and casing storage. These units are extremely expensive to construct and operate. In addition there are only a limited number available which usually are locked into long term contracts. Many offshore operators have renewed interest in slimmer well construction1–8, in the search for providing them with the capability to drill in deep water without compromising the hole size across the reservoir. Typically this involves sacrificing one or two contingency strings in the process. This paper will present one development which has focused on retaining the necessary number of casing strings (including contingency) to TD while reducing the surface casing sizes to fit within the 14" riser envelope. In addition, with the arrival of new commercial materials and processes, this new well construction process offers exciting potential for low cost deepwater exploration and testing from a DSV. Introduction With the current trend towards deepwater operations smaller riser and casing configurations offer significant advantage over conventional well architecture. Figures 1 and 2 illustrate two potential casing configurations using this technology. The first illustrates the application of a taut leg moored 3rd /4th generation rig employing a 14" riser (the limit of rigs riser tension, mud and casing storage capability in great water depths). The second and slightly more radical application of this technology illustrates an 8" reeled riser from a DSV deploying the coiled casing option. Both these examples illustrate how this innovative solution will broaden the range of options for well architects/engineers. The common approach throughout all of the well construction processes described in this paper is a series of liners, with tiebacks to previous liner tops as required. Finally the well is completed with a production tubing tieback to surface. The main technical advancements are; A unique liner hanger system which mechanically seals the new liner into the shoe of the previous liner, forming a high pressure metal to metal seal in the process, while still retaining the same tensile load capacity as the virgin pipe. A novel conveyance system which allows for a high fluid circulation rate while the liner is being deployed and landed in the well, with a conventional mode for circulating and cementing operations. Technology Development This project has focused on reducing the clearance between subsequent casing strings to construct a flow path with optimum dimensions to/from the reservoir while significantly reducing the casing dimensions at surface. The casing deployment process includes a circulation method which avoids the casing acting like a huge piston exerting excessive pressure on the open hole.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.