Create a PowerPoint presentation that addresses each of the following points/questions. Be sure to completely answer all the questions for each bullet point. Use clear headings that allow your professor to know which bullet you are addressing on the slides in your presentation. Support your content with at least three (3) sources using APA citations throughout your presentation. Make sure to cite the sources using the APA writing style for the presentation. Include a slide for your references at the end. Follow best practices for PowerPoint presentations related to text size, color, images, effects, wordiness, and multimedia enhancements. Review the rubric criteria for this assignment.
Identify an evidence-based practice model and change model that has been defined in Chapters 13 and 14 of the textbook (Melnyk and Fineout-Overholt, 2015). Describe in detail how you would utilize the practice model and change model to implement an evidence-based practice change in your clinical practice environment, related to your research topic.
Title Slide (1 slide)
Objective Slide (1 slide)
Identify an evidence-based practice model and change model that has been defined in Chapters 13 and 14 of the textbook (Melnyk and Fineout-Overholt, 2015). (2-3 slides).
Describe in detail how you would utilize the practice model and change model to implement an evidence-based practice change in your clinical practice environment, related to your research topic. (6-8 slides)
References (1 slide)
Unique With an end goal to accomplish 2030 targets set by the Paris understanding, Canada is in urgent need to decrease its ozone depleting substance (GHG) emanations. Private lodging represents 17% of Canada's vitality necessities and 16% of GHG emanations. Along these lines, many are investigating greener options in contrast to lodging yet with new developments bookkeeping as meager as 2% of the lodging stocks every year, something should be finished with the current houses. This paper proposes pre-assembled profound vitality outside retrofits to accomplish Net-Zero Energy (NZE) levels as an answer for the issue. The achievability of a program like Energiesprong in Europe is broke down for the south eastern atmospheres of Canada. A contextual analysis of a network lodging retrofit in Ottawa was picked for instance. The possibility investigation was isolated into three sections: development practicality, budgetary attainability and political and social achievability. It was discovered that, these retrofits can be constructed however a value point that can't be supported in the present moment on a basic recompense investigation. The potential for the practicality of this retrofit program lies in the hands of governments and budgetary organizations who have the ability to make it possible. A difference in outlook of the overall population with respect to the fate of nature ought to be the initial step to be accomplished. This program has demonstrated to work in Europe and furnished that Canada enters with a decent strategy, it will be fruitful. Affirmations I might want to stretch out my gratefulness to Professor Micheal Jemtrud of the School of Architecture for his direction and backing all through the readiness of this specialized paper. His insight on the field of Net-Zero Houses extraordinarily helped my examination and he was in every case extremely receptive to any of my inquiries. Chapter by chapter guide Conceptual ii Affirmations iii Chapter by chapter guide iv Rundown of Figures v Rundown of Tables vi 1.0 Introduction 1 1.1 Current issue 1 1.2 Retrofit Methods 2 1.3 Energiesprong 2 1.4 PEER 3 1.5 Objectives 4 2.0 Case Study 5 2.1 Base Case 5 2.2 Upgrades 7 3.0 Results 10 4.0 Feasibility Analysis 12 4.1 Construction Feasibility 12 4.2 Financial Feasibility 14 4.3 Political and Social Feasibility 15 5.0 Discussion 16 6.0 Conclusion 19 References 20 Index A 22 Articulation of Authorship 23 Rundown of Figures Figure 1 Current and Projected Housing Stock by Vintage (Source: Armstrong, 2018) 1 Figure 2 The Energiesprong Model (Source: Energiesprong, 2015) 3 Figure 3 The PEER Project and its Research Areas (Source: Carver et al., 2018) 4 Figure 4 Ottawa Community Housing Unit on Iris St in the West End of Ottawa (Source: SBC, 2017c) 5 Figure 5 Reference building demonstrated vitality use (GJ) (Source: SBC, 2017c) 6 Figure 6 Reference building demonstrated warmth misfortune (GJ) (Source: SBC, 2017c) 7 Figure 7 R-20 panelized rooftop get together over existing rooftop (Source: SBC, 2017c) 10 Figure 8 R-35 panelized divider get together over existing dividers (Source: SBC, 2017c) 10 Rundown of Tables Table 1 Base record model data sources (Source: SBC, 2017c) 6 Table 2 Evaluation and correlation of board frameworks (Source: SBC, 2017c) 8 Table 3 High execution mechanical frameworks in showcase (Source: SBC, 2017c) 8 Table 4 Solar capability of reference venture unit (Source: SBC, 2017c) 9 Table 5 PEER board update model data sources (Source: SBC, 2017c) 10 Table 6 Variable refrigerate volume Air-source heat siphon versus Mix heater framework (Source: SBC, 2017c) 10 Table 7 Gas versus electric back-up model information sources (Source: SBC, 2017c) 11 Table 8 Energy execution rundown of base record and updates (Source: SBC, 2017c) 11 Table 9 Scale of challenge and open door for retrofits to meet 2030 Paris Agreement (Source: Armstrong, 2018) 17 Table 10 Specification of base record and different overhauls (Source: SBC, 2017c) 22 1.0 Introduction 1.1 Current issue Following the 2016 Paris Agreement on environmental change, Canada set up the Vancouver Declaration, which submits the country to meet or surpass universal carbon emanation targets. The objective is to decrease emanations by 30% by 2030 contrasted with 2005 outflow levels. This relates to a part wide emanations decrease from 747 to 523 Mtonnes of CO2e (CaGBC, 2017). Private lodging represents 17% of Canada's vitality prerequisites and 16% of ozone depleting substance discharges (GHGs). With expanding endeavors in reasonable improvement to relieve GHGs, many are investigating greener options in contrast to lodging. At present, it is both practical and simple enough to fabricate another home that regards stringent vitality determinations. Notwithstanding, new development represents little as 2% of the lodging stock every year (CMHC, 2008) (figure 1). In this manner, there is a requirement for development with the current houses. 1.2 Retrofit Methods In this paper, we take a gander at the alternative of retrofitting houses so as to arrive at Net-Zero Energy (NZE) levels. A NZE house is one that produces as a lot of vitality as it expends on a yearly scale (Finch, 2013). Throughout the most recent 25 years, more than 1 million Canadian homes have gotten some kind of vitality retrofit. These incorporate HVAC framework substitution (53%), extra inside protection and air fixing (43%), lastly outside divider retrofits (4%). The general boundary to these retrofits is that they are excessively costly, troublesome, muddled and unsafe (Carver et al., 2018). Retrofits should be possible from the inside or the outside of the house. Inside retrofits are very eccentric, exorbitant, tedious and for the most part yield in littler living spaces because of divider development. Along these lines, for this investigation, we will concentrate exclusively on outside retrofits as they can possibly be practical and appealing. Outside retrofits should be possible with different various techniques. Instances of such strategies incorporate establishment of outside protection, for example, inflexible froth to divider or rooftop, establishment of cool/warm rooftop, lessening air invasion, changing window properties, utilization of PCM and Aerogel in various envelope segments, and including overhangs (Kamel and Memari, 2016). These progressions are generally done in a divided way which is badly designed to the land owners. 1.3 Energiesprong The strategy we will consider in this paper started in Europe, all the more explicitly in the Netherlands and is called Energiesprong. This program seeks after a mass customization methodology which joins pre-assembled veneers and protected material frameworks alongside cutting edge warming and cooling and PV to convey NZE retrofits. Construction is a strategy that is utilized to expand quality and adequacy of development (Pihelo et al.,2017). This enormously limits time and disturbance of the undertaking making it conceivable to finish them in under seven days. The homes accompany a 30-multi year ensure on indoor solace and vitality execution (Amann, 2017). Moreover, the Energiesprong model totals enough request to draw in the private area interest in arrangements advancement, supports capital interest in computerized plan and assembling of lodging gatherings, and drives cost down just as improves moderateness through store network effectiveness. In aggregate, it makes long haul agreeable, proficient, attractive and moderate homes (Singleton, 2017) (Figure 2). 1.4 PEER The Dutch program centers principally around giving answers for the social lodging segment and is quickly extending to different nations in Europe (France, UK) and remembering an ongoing adjustment of the program for New York State (SBC, 2017d). The European model of retrofitting these low-ascent townhomes is likewise appropriate to the Canadian setting. Surely, Ontario and Quebec for instance have numerous also structured residences, huge numbers of which are costly to work and needing fix. What's more, the size and nature of these structures make them perfect from both an innovation and development point of view (Singleton, 2017). This intrigue and opportunity lead to the making of a comparable task in Canada lead by Natural Resource Canada (NRCan) and CanmetENERGY called Prefabricated Exterior Energy Retrofit (PEER) (Figure 3). 1.5 Objectives As the fundamental vitality request from a house originates from space warming, it is apparent that its area bigly affects its vitality request as colder locales will encounter higher vitality requests. Accordingly, in this paper we will assess the possibility of these pre-assembled profound vitality outside retrofits in the south eastern atmospheres of Canada (Ontario and lower Quebec) by leading a practicality investigation. To help our examination we will be taking a gander at a reference venture in Ottawa. It is a network lodging unit that was utilized in the Energiesprong Design Workshop held in Ottawa on July eleventh, 2017 by Sustainable Buildings Canada (SBC). For the possibility examination, we will take a gander at three fundamental angles: development attainability, political and social practicality lastly, money related achievability. 2.0 Case Study 2.1 Base Case The unit chose (Figure 4) is a generally precise portrayal of a normal social lodging building stock in the City of Ottawa. Worked in 1961, it is a 117 m2 vintage block development with twofold coated windows, R-27 peak rooftop, uninsulated cellar and open chimney. The unit is warmed by a power air gathering heater, the water is warmed with a gaseous petrol water warmer and the ventilation is given by a rule exhaust fan in the washroom situated on the second floor. It has an EnerGuide Rating System (ERF) of 11.3 and an air snugness of 8.42 ACH at 50 Pa (SBC, 2017c). So as to look at the different overhaul alternatives, vitality displaying was finished utilizing HOT2000 V11.3 for the worship model just as the few redesign situations. Table 1 frameworks the vitality model contributions for the base record and figure 5 speaks to the structure vitality utilization before the workshop (SBC, 2017c). As for figure 5, it very well may be seen that space hearing is the essential wellspring of yearly vitality utilization mind>GET ANSWER