The construction industry (CI) has a significant impact on the environment and on climate change due to the emission of greenhouse gases like carbon dioxide. Globally accepted Sustainable Development Goals (SDG), specifically SDG 7 (Access to Affordable, Reliable, Sustainable and Modern Energy for All), SDG 9 (Industry, Innovation and Infrastructure), and SDG 11 (Sustainable Cities and Communities) stress the responsible utilization of energy in various industries, including construction. The CI uses almost half of the world’s produced energy. Therefore, this research presents insights into the efficient use of energy in the building sector and shows how energy efficiency can be achieved by altering different parameters and components like orientation, materials, glazing, and HVAC systems through a case study of a hospital building in Green Building Studio (GBS). This paper also aims to use the Building Information Modelling (BIM) approach to make environmentally sustainable decisions to reduce energy waste in projects. Initially, beneficial factors of BIM on green buildings were identified in the literature and later ranked, based on expert opinions collected using a set of questionnaires. Average Index was used for data analysis. The identified benefits were validated by conducting energy analyses on a hospital model through 3D BIM. It was concluded that a substantial share of energy cost, carbon dioxide (CO2), and electricity can be saved using this approach. It was determined that a quick and sustainable design process, improved energy efficiency, enhanced building performance, and provision of better design alternatives are the key benefits of the adoption of BIM by such projects. A Cronbach’s alpha value of 0.822 was obtained, which further validates the results. The proposed approach may lead future structures to be sustainable and enriches the culture of energy-efficient green buildings.
Concrete is highly utilized construction material around the globe and responsible for high depreciation of the raw materials. Consumption of this material in construction industry is arching upward day by day. On the other hand, debris of demolished concrete structures are being dumped as waste. For developing countries such waste is not a good sign and need its proper utilization by recycling it into useful product. In this consequence, this study is an attempt to utilize demolished waste concrete by converting into coarse aggregates. This research was conducted on recycled cement concrete aggregates of demolished structures and Rice Husk Ash (RHA). The purpose of this experimental study is to analyze the mechanical properties of concrete; when cement is partially replaced with RHA and natural aggregates by recycled aggregates (RA). In this study, the cement was replaced by RHA up to 10% by weight of cement. For experimental purpose, total 135 concrete specimens were prepared, cured and tested in Universal Testing Machine (UTM). Finally, laboratory results were compared in terms of compressive and splitting tensile strength made with normal and recycled coarse aggregates. All the specimens were prepared at 1:1.5:3 with 0.50 w/c ratio and tested at 7, 14, 21, 28 and 56 days curing ages. It is observed from experimental analysis that the workability of fresh normal concrete is 7% and 10% greater than recycled aggregates concrete blended with 10% RHA and only recycled aggregates concrete without RHA respectively. The compressive strength increases up to 6%, whilst splitting tensile strength increases 4% at 56 days curing, when the cement is replaced 10% by RHA. It is, further, concluded that with more than 10% RHA replacement with cement, the compressive strength decreases. This study would help the construction experts to use such wasted concrete into useable production of new concrete projects.
The purpose of this study is to explore Vygotsky's contribution to the socio-cultural theory in the field of education in general, and applied linguistics in particular. The study aims to elaborate the impact of social-cultural theory in the existing body of literature. The study also reviews implications and applications of socio-cultural theory in second language acquisition (SLA). Moreover, this study also critiques the basic concepts of the theory and how far these concepts have been implicated in the domain of research. The central focus is to explore and to critically understand central ideas such as Zone of Proximal Development, mediation, scaffolding, internalization, and private speech. The socio-cultural theory focuses on what learners learn and the solution to their learning problems. Socio-cultural theory has made a great effect on learning and teaching languages. It also regards learning second language as a semiotic process where participation in socially mediated activities is very important (Ellis, 2000). Vygotsky (1987) singled out and studied the dynamic social surroundings which indicate the connection between teacher and the child. Moreover, he focused on the social, cultural and historical artifacts which play a pivotal role in the children's cognitive development as well as their potential performance. The study concludes with the idea of Williams & Burden (1997) that socio-cultural theory suggests that education should be associated with learning to learn and making learning experiences meaningful and relevant to the learner. The study also suggests some pedagogical implications and offers teaching and learning practices in relation to socio-cultural theory.
Purpose The emergence of massive modern technology construction projects is seen to be a real occurrence in Pakistan’s construction industry, which in turn demands a better and systematic way of undertaking the project. Hence, this requires capable contractors to perform the task. A plethora of research studies are carried in the past three decades on the identification of evaluation criteria of contractor’s selection, but the road of modern technology construction projects is still unpaved. Design/methodology/approach This study strives for the most essential but exhaustive criteria, especially for modern technology construction projects in Pakistan. A pilot survey followed by an exhaustive questionnaire survey was carried out alongside with one-on-one interactions with professional experts serving in various public organizations under public procurement department. A total of 87 attributes were analyzed, correlated, rotated and weighted using exploratory factor analysis for identification of evaluation criteria. Findings The study finds that for modern technology construction projects basic format of contractor’s selection attributes is not extensive. Henceforth, the most robust, comprehensive and precise assessment is required for such modern technology construction projects. Consequently, four inimitable sets of evaluation criteria groups are designed keeping in view the growing demands of public projects around the globe. Research limitations/implications The research work added a novel contribution in this research area which is in quest of resolutions from the past three decades. This research opens the novel avenues in the future in terms of designing the evaluation criteria while keeping the project demands and scope in mind. Social implications The research is a blueprint for the construction organizations and other authorities especially to those agencies involved in the modern construction technology projects. This eye-opening work will further stimulate the clients to focus on not only the designing phase but also the execution part of such advanced construction projects which turn in the successful project outcome. Originality/value The larger number of past studies addressed so for from the last couple of decades is very useful to a certain extend for instance for small to medium-sized traditional construction projects. This research delineates the future to call upon the most alarming future issues and consequences of selecting the traditional contractors for their advanced projects. Being premier research in this realm, the study filled the gap of evaluating the contractors inimitably compared to what was practiced in the past.
The construction sector is responsible for providing fundamental physical structure required for living and survival of human life. Increased development works have led in resulting the massive amount of waste generation in developing countries. Due to poor management system on sites, it has become more crucial and exerts several negative impacts on society and the environment. This Unused waste material has a negative impact on the ecosystem and needs a considerable amount of money for recycling, reusing and disposal of the waste. Like other developing countries Pakistan is spending a significant portion of its GDP on handling construction waste. Among the several other factors, the key contributes are highlighted in this study. This study is exploratory work investigating the types of construction waste generated on site and their relative impact of the project cost in construction projects of Pakistan. Through questionnaire the opinion of clients, consultant and constructor have been taken to identify the major types of waste having more impacts on cost and time. Through Average index, severity index and importance index, the probability of occurrence of waste through different materials, severity level of waste production by these materials, and the overall effect of all waste generating materials have been found respectively. Among the materials sand, concrete, tile is the most common materials, which are responsible for a waste generation while time and cost are the two most common non-physical waste generating factors.
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.
Contact Info
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
