Enhancing Green Building Rating of a School under the Hot Climate of UAE; Renewable Energy Application and System Integration

Dakheel, Joud Al; Aoul, Kheira Anissa Tabet; Hassan, Ahmed

doi:10.3390/en11092465

Cited by 21 publications

(10 citation statements)

References 41 publications

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“…1). 3 MiOx is the brand name of a system for on-site electrochemical generation and distribution of oxidative biocides in the open loop. 4 Product names for the corrosion inhibitors applied at site.…”

Section: Methodsmentioning

confidence: 99%

“…Accordingly, the Gulf Cooperation Council (GCC) has seen a rapid expansion in district cooling facilities to meet air-conditioning requirements which are the largest such requirements in the world (in excess of 25,000,000 refrigeration tons (RT) 2 ). Indeed, the peak consumption in the United Arab Emirates (UAE) is second only to Saudi Arabia in the GCC with the majority of electricity loads (~ 70%) being required for cooling 3 . Furthermore, peak cooling demands are forecast to reach 100 M RT in the GCC region by 2030 4 .…”

Section: Introductionmentioning

confidence: 99%

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Computational flow cytometry of planktonic populations for the evaluation of microbiological-control programs in district cooling plants

McElhinney

Mawart

Alkaabi

et al. 2020

Sci Rep

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Biofouling poses a serious concern for the district cooling (Dc) industry. current industry practises for monitoring biofouling continue to rely on culture-based methods for microbial enumeration, which are ultimately flawed. Computational flow cytometric (cFCM) analyses, which offer enhanced reproducibility and streamlined analytics versus conventional flow cytometry were applied to samples taken from 3 sites in each of 3 plants over a 5-week sampling program. We asked whether the application of cfcM to monitoring planktonic community dynamics in Dc plants could be able to provide sufficient information to enhance microbiological-control strategies at site and inform about plant performance impacts. the use of cfcM enabled the evaluation of biocide dosing, deep cleaning treatment efficiencies and routes of microbial ingress into the studied systems. Additionally, inherent risks arising from the reintroduction of microbiological communities into recently cleaned Wct basins from contaminated cooling waters were identified. However, short-term dynamics did not relate with plant performance metrics. In summary, the insights offered by this approach can inform on plant status, enable evaluations of microbial loads during biofouling mitigation programs and, ultimately, enhance industry management of the biofouling process. Hot urban climates requires extensive cooling to provide habitable indoor environments and high demand in electricity and water use. Centralized production and distribution of cooling waters from district cooling plants (DCPs) is the preferred means of providing cooling waters for industrial, commercial and residential use as it is generally more economical than conventional on-site air-based cooling. The current annual energy demand for cooling accounts for 10% of global electricity use and is expected to triple by 2050, largely due to population expansions in developing hot-climate countries, including the Middle East 1. Accordingly, the Gulf Cooperation Council (GCC) has seen a rapid expansion in district cooling facilities to meet airconditioning requirements which are the largest such requirements in the world (in excess of 25,000,000 refrigeration tons (RT) 2). Indeed, the peak consumption in the United Arab Emirates (UAE) is second only to Saudi Arabia in the GCC with the majority of electricity loads (~ 70%) being required for cooling 3. Furthermore, peak cooling demands are forecast to reach 100 M RT in the GCC region by 2030 4. Given the continued expansion of the global population, climate change and lack of alternatives for cooling in high-density urban areas, we can expect a continued reliance on DCPs for the foreseeable future. It is therefore essential that these cooling facilities are operating as efficiently and sustainably as possible in order to meet the demand for cooling, whilst mitigating environmental impacts. District cooling systems are composed of four principle components: a make-up water (MUW) supply line, a centralized Cooling Plant, a chilled water supply network and th...

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Computational flow cytometry of planktonic populations for the evaluation of microbiological-control programs in district cooling plants

McElhinney

Mawart

Alkaabi

et al. 2020

Sci Rep

View full text Add to dashboard Cite

show abstract

“…Research and studies from Thailand and various other countries in the field of energy efficiency technology and measurement implemented to reduce energy consumption have been reviewed [9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25]. To achieve their targets, energy consumption and various related factors such as climate must be considered and discussed to evaluate energy usage and energy saving potential [9][10][11].…”

Section: Literature Reviewmentioning

confidence: 99%

Harmonics and Reduction of Energy Consumption in Lighting Systems by Using LED Lamps

2018

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This paper proposes the study and analysis of harmonics, energy consumption and power quality of light emitting diode (LED) lamps equipped in building lighting systems. LED lamps with external (LED MR16) and internal (LED light bulb) drivers are investigated using an experimental setup to compare the results. The power quality of both LED lamps is studied by using a power quality meter to measure the generated harmonic currents from various case studies. The case study is divided into four major cases: one LED lamp is turned on with one driver, two LED lamps are turned on using the two drivers, eight LED lamps are turned on with one driver, and eight LED lamps are turned on with the eight drivers. As harmonics are related to total power factor (PF), which affects the energy savings of the building, hence, a filtering circuit to reduce harmonic current has been designed and implemented to improve power quality and/or power factor of the system. The different cases of harmonic filter insertion at the input of an LED lamp’s driver are discussed and then compared with a lighting standard to show the effectiveness of the passive filtering technique used in the studied system. In addition, the obtained result can be applied to both newly built and retrofitted buildings that aim to use LED technology to increase energy efficiency and decrease energy costs, and could be a helpful guide for end-users and manufacturers in addressing and developing LED issues.

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“…Aspects of architectural integration, engineering, and manufacturing techniques as well as material technology will continue to develop. Research investigations show strategies for improved energy savings up to 10% via optimization in specific hot climate conditions [90], and improved power and performance ratio up to 40% via customization [91,92]. It is likely that investigations like these will continue to drive the rise of high performing BIPV systems in the coming years.…”

Section: Future Researchmentioning

confidence: 99%

A Conceptual Framework for a Building Integrated Photovoltaics (BIPV) Educative-Communication Approach

et al. 2018

Self Cite

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Global interest in Building Integrated Photovoltaics (BIPV) has grown following forecasts of a compound annual growth rate of 18.7% and a total of 5.4 GW installed worldwide from 2013 to 2019. Although the BIPV technology has been in the public domain for the last three decades, its adoption has been hindered. Existing literature asserts that proper information and education at the proposal or early design stage is an important way of addressing adoption barriers. However, there is a lack of BIPV communication approaches for research, and market proposals that focus on clear information about its benefits. This has limited the adoption of BIPV.. Based on this, the present study aims to develop a conceptual framework for an educative-communication approach for presenting BIPV proposals to encourage its adoption. This is aimed at developing holistic research and market proposals which justify scholarly investigation and financial investment. Using a multiple case study investigation and Design Research Methodology (DRM) principles, the study developed an approach which combines core communication requirements, the pillars of sustainability and a hierarchical description of BIPV alongside its unique advantages. A two-step evaluation strategy involving an online pilot survey and a literature-based checklist, was used to validate the effectiveness of the developed approach. Our results show that understanding environmental and economic benefits was found to be significantly important to people who are likely adopters of BIPV (p < 0.05), making these benefits crucial drivers of adoption. Statistical significance was also found between those who do not know the benefits of using solar energy for electricity, and interest in knowing these benefits (p < 0.05). We thus conclude that proper communication of these benefits can safely be advanced as important facilitators of BIPV adoption. In general, this study elaborates the need and strategies for appropriate dissemination of innovative ideas to encourage and promote adoption of technological advancement for a sustainable global future.

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Enhancing Green Building Rating of a School under the Hot Climate of UAE; Renewable Energy Application and System Integration

Cited by 21 publications

References 41 publications

Computational flow cytometry of planktonic populations for the evaluation of microbiological-control programs in district cooling plants

Computational flow cytometry of planktonic populations for the evaluation of microbiological-control programs in district cooling plants

Harmonics and Reduction of Energy Consumption in Lighting Systems by Using LED Lamps

A Conceptual Framework for a Building Integrated Photovoltaics (BIPV) Educative-Communication Approach

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