Bibliographies thématiques / Green Wall Panel

Littérature scientifique sur le sujet « Green Wall Panel »

Auteur : Grafiati
Publié le 10 mars 2023

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Articles de revues sur le sujet "Green Wall Panel"

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Chen, Jiwen, Decai Meng, Rui Zhang, Hongjuan Yang, Taixue Bei et Shuai Ji. « Automatic control design of light wall panel production line ». Journal of Physics : Conference Series 2254, no 1 (1 avril 2022) : 012041. http://dx.doi.org/10.1088/1742-6596/2254/1/012041.

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Abstract In order to promote the intelligent and standardized production of green light-weight wall materials in prefabricated buildings, an electrical automation control system for light-weight wall panels based on PLC technology was proposed. The process flow of the wall panel production line is analyzed, and the hardware system of the control system is determined through the selection of hardware such as motors and cylinders. The batching system, extrusion molding system, cutting system, palletizing system, transfer and maintenance system, etc. can be programmed through PLC technology. and automated production of wall panels can be accomplished by utilizing sensors and limit switches.
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Gao, Yuxin, Baojun Cheng, Pengfei Ma, Boyuan Shi, Shengrong Kang et Yulin Tu. « Study on the High-performance Composite Wall Panel Envelop of Building and its Relevant Joint Construction ». E3S Web of Conferences 198 (2020) : 01003. http://dx.doi.org/10.1051/e3sconf/202019801003.

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Aiming at the general problems of envelop wall panel about the existing building, such as large surface density, low strength, poor service performance and high maintenance cost, a kind of high-performance composite wall panel is proposed in this paper. This wall panel takes high toughness cement-based composite material as shell and inorganic light thermal insulation material as core part. Its surface density equals to or is less than 70 kg/m2, heat transfer coefficient equals to or is less than 1 W/ (m2·K ), and the minimum bending failure load equals to or is more than 8 times of wall panel weight. Combined with the characteristics of high-performance composite wall panel, the “removable connection system” and “beveled tongue and groove type” joint structure are proposed to realize the construction of high-performance composite wall panel without moisture, nondestructive free disassembly and green recycling.
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Siswosukarto, Suprapto, Ashar Saputra et I. Gede Yohan Kafrain. « Utilization of Polystyrene Waste for Wall Panel to Produce Green Construction Materials ». Procedia Engineering 171 (2017) : 664–71. http://dx.doi.org/10.1016/j.proeng.2017.01.406.

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Chen, Wen Su, et Hong Hao. « A Study of Corrolink Structural Insulated Panel (SIP) to Windborne Debris Impacts ». Key Engineering Materials 626 (août 2014) : 68–73. http://dx.doi.org/10.4028/www.scientific.net/kem.626.68.

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Structural insulated panel (SIP) is considered as a green panel in construction industry because of the low thermal conductivity of the sandwiched EPS core (i.e extended polystyrene). It is a lightweight composite structure and is widely used in commercial, industrial and residential buildings to construct the building envelop including roof and wall. The windborne debris driven by cyclone or hurricane usually imposes intensive localized impact on the structural panel, which might create opening to the structure. The opening on the building envelope might cause internal pressures increase and result in substantial damage to the building structures, such as roof lifting up and wall collapse. The Australian Wind Loading Code (version 2011) [1] requires structural panels to resist projectile debris impact at a velocity equal to 40% of the wind speed, which could be more than 40 m/s in the tropical area with the wind speed more than 100m/s. In this study, two kinds of SIP under projectile debris impact were investigated, i.e. “Corrolink” and “Double-corrolink” composite panels shown in Fig. 1. Laboratory tests were carried out by using pneumatic cannon testing system to investigate the dynamic response of composite panels subjected to wooden projectile impacts. The failure modes were observed. The structural dynamic responses were also examined quantitatively based on the deformation and strain time histories measured in the tests. The penetration resistance capacity of panels subjected to windborne debris impact was assessed.Fig. 1 Schematic diagrams (L) Corrolink panel; (R) Double-corrolink panel [2]
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Oyama, Liliane Sayuri, Maximiliano Kawahata Pagliarini, Camila Miranda Buschieri, Patrick Luan Ferreira dos Santos et Regina Maria Monteiro de Castilho. « Vertical gardens : Manufacturing materials proposal ». Research, Society and Development 10, no 7 (27 juin 2021) : e41510716709. http://dx.doi.org/10.33448/rsd-v10i7.16709.

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Vertical gardens emerged with the aim of increasing green areas in large urban centres, thus reducing the negative impacts of this dense urbanization. In general, vertical gardens are able to improve air quality, reduce heat islands, increase biodiversity, among other advantages presented in this work. This study proposes the use of two materials for making panels for vertical gardens. The panels were based on the model developed by the French botanist Patrick Blanc, using “green felt” and “grey cacharel” with each panel measuring 50 x 80 cm and with 24 pockets. These were installed in a residence in the municipality of Ilha Solteira, São Paulo state, Brazil; having with vegetal species Trandescantia zebrina. During January 19 to February 2, 2020, the temperatures of the panels, the wall and the region behind the panels were measured. An average thermal damping of up to 8.71°C was observed; it was concluded that the panels developed were effective for the construction of vertical gardens.
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Putra, Azma, Muhammad Sajidin Py et Norliana Salleh. « Modelling the Effect of Flexural Vibration on Sound Absorption of a Micro-Perforated Panel Using Wave Propagation Method ». Applied Mechanics and Materials 471 (décembre 2013) : 255–60. http://dx.doi.org/10.4028/www.scientific.net/amm.471.255.

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Micro-perforated panel (MPP) is well known as the alternative green sound absorbing material replacing the synthetic porous absorber. Several works have been established which model the sound absorption performance of the MPP with various arrangements. However, most existing models are for MPP with rigid condition and rarely discuss the effect of vibration due to the impinging sound. In this paper, a simple approach using wave propagation technique is proposed to take into account the effect of flexural wave in the MPP on its sound absorption. The model begins with an MPP coupled with a solid panel separated by an air gap. The impedance of the back solid panel can then be adjusted to a very large value to simulate a rigid wall.
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Guccione, Alessia, Natascia Biondi, Giacomo Sampietro, Liliana Rodolfi, Niccolò Bassi et Mario R. Tredici. « Chlorella for protein and biofuels : from strain selection to outdoor cultivation in a Green Wall Panel photobioreactor ». Biotechnology for Biofuels 7, no 1 (2014) : 84. http://dx.doi.org/10.1186/1754-6834-7-84.

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Rodolfi, Liliana, Natascia Biondi, Alessia Guccione, Niccolò Bassi, Massimo D'Ottavio, Gimena Arganaraz et Mario R. Tredici. « Oil and eicosapentaenoic acid production by the diatomPhaeodactylum tricornutumcultivated outdoors in Green Wall Panel (GWP®) reactors ». Biotechnology and Bioengineering 114, no 10 (11 juillet 2017) : 2204–10. http://dx.doi.org/10.1002/bit.26353.

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Tredici, Mario R., Liliana Rodolfi, Natascia Biondi, Niccolò Bassi et Giacomo Sampietro. « Techno-economic analysis of microalgal biomass production in a 1-ha Green Wall Panel (GWP®) plant ». Algal Research 19 (novembre 2016) : 253–63. http://dx.doi.org/10.1016/j.algal.2016.09.005.

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Shinde, Mr Pravin. « Container House using GFRG Panels ». International Journal for Research in Applied Science and Engineering Technology 9, no VI (15 juin 2021) : 1023–32. http://dx.doi.org/10.22214/ijraset.2021.34912.

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In India the demand for housing is ever increasing and hence there is an increase in demand for building materials. Providing affordable housing is a challenge for developing country like India. India have an shortage of millions houses. Now days, more than 17 million retired shipping containers are stacked on the port worldwide. Container building still facing the various challenges. To avoid this challenges GFRG panels use as a Walls and Roofs of container house. So, Container house using GFRG panels provide an adequate solutions to the various problems. Building materials which are energy efficient strong and durable at an affordable cost are in great demand GFRG panels are of much relevance in India where there is tremendous need for cost effective mass scale and rapid housing. They are not only eco-friendly, but also resistant to termites, heat, rot, corrosion, water and fire. Concrete infill with vertical reinforcement rods enhances its vertical and lateral load capabilities. Comparative studies of GFRG and conventional buildings have been carried out in the present investigation. Rapid wall panel provides speedier construction and leads to environmental protection. Subsequently, it is a perfect option building material to replace bricks or concrete blocks. GFRG wall is a green product which can erect a building fast in prefabricated method. This paper highlights the positive aspects of GFRG panels with respect to Time, cost of construction Strength, affordability, energy efficiency over the conventional construction materials and its suitability in the Indian Housing Scenario. This research aims in providing adequate shelter for all individuals that is one among the recent challenges long faced by the developing countries. Economical plan and development of structures, utilizing green material is an option in contrast to exhaustion of totals and increment in cost of concrete. Glass fiber reinforced gypsum panel (GFRG) is a green material, which is a rapid wall construction method and a cost effective construction process. With the end goal to enhance the productivity, and decrease of waste, the lean the development has been presented as another administration rule for better execution. In India, the usage of lean administration in the development industry is a noteworthy errand. Because of the absence of consideration and uneducated towards the lean administration guideline the proprietor, contractual worker, engineers and so on are as yet creating a stage to actualize this standard in their task. This venture primarily centers on to recognize the potential outcomes of execution of lean administration in the development industry. This paper shows the probabilities of compelling usage of lean administration guideline in the development industry, which can definitely diminish the use of time, increment the nature of work, and benefit rate by wiping out the wastage of materials. It finally, points in giving lodging to all classes of people, in this way enhancing the economy of India. Going through this study, it will explore & analyze some projects and case studies from many points of views, Geometrically, Architecturally, structurally, financially, and of course environmentally. The deployment of containers as building modules has grown in popularity over the past years due to their inherent strength, modular construction, and relatively low cost. Finally, conclusions are going to be drawn on the important worth of lean construction against the traditional practice with consideration for the future benefits within collaborative technological models.
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Thèses sur le sujet "Green Wall Panel"

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De, Klerk Edwin Cavin. « Why does the strategic positioning of Econo-Heat's wall-panel heater justify a green marketing strategy ». Thesis, Stellenbosch : Stellenbosch University, 2011. http://hdl.handle.net/10019.1/21376.

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Thesis (MBA)--Stellenbosch University, 2011.
This case study explores why the strategic positioning of the wall-panel heater, manufactured by Econo-Heat, justifies a green marketing strategy. The primary research objective is to provide Econo-Heat with a coherent marketing strategy framework, based on the outcome of the strategic analysis of the competitive positioning of the wall-panel heater. The following factors form the context of the study: the impact companies have on the environment, the energy crisis and the rising “green economy” in South Africa, and the increased consumer awareness about lifestyle consequences for the environment. The wall-panel heater uses convection-heating technology to warm rooms and has unique selling properties, such as being energy efficient, economical, effective and safe. Other space-heating products found in South Africa do not encapsulate all these qualities in one product. A strategic analysis done of the company revealed that the current competitive positioning of the wall-panel heater is a best-cost strategy. However, based on a literature review, the strategic analysis of the company and an exploration of the small household appliance consumer profile, the study found that the current competitive positioning of the wall-panel heater could be augmented. The combination of factors revealed by this study could be interpreted as push-factors towards the implementation of an applicable green marketing strategy that could support the re-positioning of the wall-panel heater to a broad-differentiated competitive positioning. These factors are the unique selling properties of the wall-panel heater, the lean manufacturing principles of the company, the rising green economy in the country, the energy crisis and the slow recovery from the global financial crisis in South Africa, as well as the unique characteristics of the environmentally-focused consumer. The view is held that green marketing can mitigate mass consumption. The case study suggests a future marketing strategy framework that consists of three combined elements. First, the argument is made that the unique selling properties of the wall-panel heater in combination with the unique operations of the company, against the backdrop of external factors that influence companies and consumers (i.e. the rising green economy and the energy crisis), could be utilised to discover new market space. The concept of “lateral marketing” is suggested as a framework should the company position itself to differentiate along the green dimension. Secondly, the “green marketing strategy matrix” is suggested as a framework to establish the size and greenness of its consumer segment, as well as the ability to differentiate along the green dimension. Lastly, the suggestion is made that the marketing objective of the company (its greenness) can be measured through the application of a “green marketing grid” that leads to innovation and the challenging of consumer behaviour. The combination of these elements is thought to form a coherent green marketing framework that could in future place the product at a strategic and competitive advantage within the space-heating industry.
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Urben-Imbeault, Tamara. « Vertical gardening in a northern city ; speculations for Winnipeg ». Land 8 - Landscape Architecture Network, 2014. http://hdl.handle.net/1993/30769.

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This practicum is a reference for vertical gardeners in cold climates. Winnipeg, Manitoba is explored, however findings may be applied to other cities in similar climates. First, the history of vertical gardening is discussed, then the types of vertical gardens currently on the market are described. These can be classified into two categories: soil bearing or non-soil bearing. Most designs are modular pre-planted systems that can be attached to any wall, as long as it satisfies the structural requirements recommended by the manufacturer. The benefits of vertical gardening have been shown to be rather extensive, covering a wide range of areas. Aesthetic improvement, reduction of the Urban Heat Island (UHI) effect, improvement of air quality, stormwater absorption, noise reduction, native habitat integration, reduction of heating and cooling costs for buildings, food production, marketing, and biophilia are all benefits explored in detail. Difficulties associated with vertical gardening are discussed, specifically the lack of knowledge and awareness of vertical gardens, lack of empirical evidence (or missing details in existing research), overall cost and lack of financial incentives, lack of industry codes, and various associated risks. Design framework exists within microclimate conditions unique to vertical gardens, as well as neighbourhood and regional (micro)climates. Theories relating to the study of green walls covered include the human ecosystem model, urban reconciliation ecology, habitat templating, the urban cliff hypothesis, and wall ecology. Suitable habitat templates identified for vertical gardens in Winnipeg are cliffs, sand dunes, alvars, mixed grass prairie and prairie potholes. Design parameters to be followed for vertical garden design in Winnipeg are to ensure that lightweight materials are used, to provide insulation to protect plants from sudden temperature changes, to choose plants that grow in the region and are adapted to grow in areas with limited soil, increased wind, varying degrees of sunlight (depending on orientation), and increased pollution and salt spray depending on location.
October 2015
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Vondrová, Michaela. « Dům pro seniory ve Velkém Poříčí ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2020. http://www.nusl.cz/ntk/nusl-410111.

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It is about new-built Retirement center standing alone in the cadaster unit of the town Velké Poříčí. The building has four- floors without basement. It is located in flat terrain near the river in quiet location. The house is built as letter L form. The Retirement center is adapt for disabled people. In the first floor is dining room, doctor´s office, part for employees and technical facilities for house. In the second and third floors are apartments. There are 12 single rooms for one person, 6 single rooms for pair with sleeping in one room and 4 apartments for couple with separated bedroom. In the fourth floor is access to roof terrace. The structural systém of the building is composed of precast concrete frame by Prefa, infill wall from ceramic masonry. Vertical structures are built by prestressed concrete floor slab Spiroll. The building has ventilated facade with mineral wool with facade cladding. The roof is warm flat roof with half intensive green roof.
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Hentschelová, Tereza. « Sportovní centrum ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2020. http://www.nusl.cz/ntk/nusl-410001.

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The goal of this thesis is to elaborate project documentation of new sports centre. The building is situated on a plot No. 1930/48 of the cadastre territory in the town of Pacov. It is a building without cellar with two above-ground floors part on the area of 595,6 m2. The first floor part circuit structure consist of reinforced concrete walls with an outdoor climbing wall. The roofing is the mono-pitches roof with glue laminated timber beam and purlin with metal roofing. The building features an indoor climbing wall and a bar with seating. The second floor part is made of wooden CLT panels, the roof is designed as a green flat roof. This section provides facilities for athletes and staff and exercise halls. There are 50 parking spaces for cars in the building.
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Stančík, Adam. « Mateřská škola v Novém Jičíně ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2015. http://www.nusl.cz/ntk/nusl-227500.

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Single-storey C-shaped building of kindergarten in Nový Jičín with flat green roof.The building is situated on the flat land. The plot is accessible by local road. Kindergarted has irregular plan. The ends are connected by connecting tunnel, which is partly below ground level. Courtyard facade is a vertical garden - green facade.
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Trčálková, Miroslava. « Areál VUT Kraví hora ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2018. http://www.nusl.cz/ntk/nusl-391842.

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The aim of the diploma thesis is a detailed study of the VUT area at Kraví Hora to a scale of 1: 200. The aim is to combine the interests of VUT and Brno in this extraordinary territory for the benefit of both subjects. For the needs of the city, I created a publicly accessible park in which I placed the VUT museum buildings and the spaces for the promotion of individual VUT faculties that the Technical University lacks. I have also placed the object of the creative business center here. These are rented spaces especially for VUT graduates and VUT employees who want to do creative work. Both buildings with a green walkable roof are embedded in the terrain so as not to disturb the overall impression of the landscape and create a natural transition between the buildings and the city park.
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Kuchaříková, Andrea. « Kulturní centrum Puppet ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2020. http://www.nusl.cz/ntk/nusl-410039.

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This diploma thesis presents a project documentation for construction of a community centre with a restaurant. Its construction site is located on the outskirts of town Jaroměřice nad Rokytnou, Poděbradova street. The building is composed from three parts, which are connected to each other. The first part houses the restaurant with its facilities. This part is a single floor structure covered by a flat green roof. Its façade is formed by white boards composed into an asymmetrical pattern. The second part serves as a backstage area where all the necessary facilities are located. This second part of the building is as the first part a single floor structure covered by a flat green roof. Its façade is formed by façade timber boards. The main entrance is located in the middle part, which is the third part the building. It has two floors and it houses an auditorium, a bar and amenities. Its façade is formed by trapezial boards. The construction system is formed by load bearing walls and by prestressed concreted floor panels or in some parts by cast-in-place reinforced concrete slabs. The building has strip foundations. Its interior walls are built from sand-limestone bricks with acoustic properties. The perimeter walls are covered with ventilated façade with mineral wool thermal insulation. The heating of the community centre is powered by gas boiler connected to single-vent chimney with ventilation shaft.
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Smutný, Květoslav. « Sportovní centrum ». Master's thesis, Vysoké učení technické v Brně. Fakulta stavební, 2014. http://www.nusl.cz/ntk/nusl-226697.

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This thesis deals with the detailed documentation of the sports center . Estimated location of this building is on the property number 136/15 in Karlovy Vary in the cadastral Tuhnice in the Karlovy Vary region. Currently, land without regular use. The land is owned by the investor. Newly built three storey sports center will serve the large kinds of sports activities. The sports center will offer the first floor , two multipurpose rooms , for example, aerobic , spinning , heat, zumba and other sports, the climbing wall and two squash courts and in the second floor of the gym and two multi-purpose halls . The first floor will also find a restaurant with two bowling lanes . The project was based on the layout of the study and the project planning permission . The result of this work is to complete detailed documentation, which includes a drawing of the situation , floor plans , sections, elevations , drawings, foundations , ceilings , roofs, stairs and details. Furthermore, a technical report , extracts elements of fire safety of the building and thermal assessments of buildings.
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BASSI, NICCOLO'. « The “Green Wall Panel” Characterization and optimization of a disposable flat panel reactors ». Doctoral thesis, 2010. http://hdl.handle.net/2158/547864.

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Chen, Huin-Jun, et 陳煥鈞. « The Research on Noise Resistance Performance Study for Green Material of “eFoam” Used in Composite Panel-Wall ». Thesis, 2016. http://ndltd.ncl.edu.tw/handle/97690290042927495444.

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碩士
中原大學
土木工程研究所
104
Electronic bridge Foam (e-foam) material having a high strength, lightweight, shock absorption, sound insulation and heat insulation performance. E-foam can be change its properties and uses by the formulation and molding technology. In this study that assesses the feasibility of environmentally friendly PE e-foam applications in the field of construction materials by tests. Use common compartment material, such as steel, calcium silicate and gypsum panel. Reference ASTM specifications by a combination of e-foam do a lot and fast test through a small soundproof. E-foam materials with different expansion ratio and the thickness of the mat material as an interlayer of new partition walls, partition walls in multi-layered structure for different e-foam sound barrier effect, seek to improve the best material. e-From the obtained results, showed PE e-foam green can replace traditional materials in construction application. Multi-layer structure can be made to achieve a better sound effect. Quality of materials affects the noise performance large; the low thickness of the material can also improve sound insulation. But also low thickness of the material proof of sound insulation partition wall still has enough influence.
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Livres sur le sujet "Green Wall Panel"

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Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. University of Cambridge ESOL Examinations, 2014.

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Laurie, A. P. 1861-1949. Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. Creative Media Partners, LLC, 2018.

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Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius About Wall and Panel Painting. Franklin Classics, 2018.

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Laurie, A. P. 1861-1949. Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. Franklin Classics Trade Press, 2018.

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Laurie, A. P. 1861-1949. Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. Franklin Classics Trade Press, 2018.

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Pillans, Laurie Arthur. Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. Creative Media Partners, LLC, 2021.

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Pillans, Laurie Arthur. Greek and Roman Methods of Painting : Some Comments on the Statements Made by Pliny and Vitruvius about Wall and Panel Painting. Creative Media Partners, LLC, 2021.

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Chapitres de livres sur le sujet "Green Wall Panel"

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Ling, Roger, et Lesley Ling. « I. 10. 11 : CASA DEGLI AMANTI ». Dans The Insula of the Menander at Pompeii. Oxford University Press, 2005. http://dx.doi.org/10.1093/oso/9780199266951.003.0010.

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The Surviving Decorations of the Casa degli Amanti belong primarily to the Fourth Style, but there are glimpses of a Second Style phase, dated around the third quarter of the first century BC, as well as some evidence for the division of the Fourth Style decorations into a very early (transitional Third to Fourth) and late (post-earthquake) phase. Second Style paintings—a simple scheme of black orthostates with yellow margins surmounted by a frieze containing a vegetal scroll—occur only in the fauces (Figs. 125–6; Pl. 97, at left), deliberately preserved when the decoration of the atrium was renewed at the time of the Fourth Style. Decorated pavements of the same phase can be identified in I.10.10 and room 19, in both cases apparently overlaid by later, plainer paving, as well as in the ala or exedra (6) opening off the south side of the atrium, and round the rim of the atrium’s impluvium (Fig. 127). In all cases the decoration consists of tesserae set in cocciopesto, either in lines forming a lozenge grid (Pl. 99) or in rows of little crosslets. The front part of the pavement of room 8, a lavapesta with a scattering of white, black, and green stones, may also go back to this time. To the late Third or early-Fourth Style we must assign the wall-paintings of the peristyle, a simple white-ground scheme with hanging objects (vessels and musical instruments) combined with garlands and tiny purple-red panels containing pairs of ducks (Figs. 148–53; Pls. 88– 91). These are likely to have been carried out when the upper storey was added. It is also possible that the paintings of room 10 (black dado, main zone with a central columnar aedicula and cinnabar-red side-Welds containing flying birds, white upper zone with rectilinear frameworks: Figs. 155–8; Pl. 92) were applied at this time, since their handling shows a delicacy and restraint much closer to the Third Style than that of the neighbouring rooms 11 and 12. The decorated pavement of the upstairs dining-room in the east wing, above rooms 11 and 12 (Figs. 168, 176), may be ascribed to the same development, as may the pavements in the east wing of the peristyle (Fig. 147; Pls. 85–6) and in two of the rooms opening off it (rooms 10 and 11: Fig. 154; Pls. 87, 92).
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Actes de conférences sur le sujet "Green Wall Panel"

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Gao, Liang, Faqiang Rao, Ning Wang et Zongling Yan. « Construction technology and ecological protection of highway ecological panel reinforced retaining wall under green traffic target ». Dans 5th International Conference on Traffic Engineering and Transportation System (ICTETS 2021), sous la direction de Yongkang Xing. SPIE, 2021. http://dx.doi.org/10.1117/12.2619475.

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Pendleton, Ian. « NHNY Via Verde – A New Design Standard For Affordable Housing ». Dans IABSE Congress, New York, New York 2019 : The Evolving Metropolis. Zurich, Switzerland : International Association for Bridge and Structural Engineering (IABSE), 2019. http://dx.doi.org/10.2749/newyork.2019.0271.

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<p>NHNY Via Verde is a global model of sustainable housing development. Located in a Bronx brownfield, the 294,000 SF structure contains 222 residential units with 40,000 SF of green roofs and open space. Cascading buildings surrounding a central courtyard consists of a 21 story tower, 16- to 7-story midrise and 5 to 3-story low-rise. Interconnected, accessible green roofs provide continuous access from the courtyard to 12<span>th</span> level roof: the “via verde” or “green way”. Primary structure consists of cast-in-place concrete at the tower and concrete masonry bearing walls with precast concrete plank at mid- and low-rises. These conventional materials are arranged in unconventional ways to maximize efficiency, generating the architectural unit layout from optimal plank spans and eliminating façade bearing walls for prefabricated façades with sunshades and balconies. Secondary structural steel framing supports low rise storefronts, extensive roof PV panel arrays and a rainwater catchment system. Fly ash replacement was maximized in all concrete, and the time effect on strength gain was managed in construction. The large building volume required internal building separations with three independent structures engineered for drift compatibility. Foundation pile capacities vary to optimize efficiency to wide-ranging building heights.</p>
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Hettiarachchi, A. A., et D. R. Perera. « IMPACT OF COLOUR ON DEPRESSION, ANXIETY AND STRESS LEVELS OF PHYSICALLY DISABLED PATIENTS IN HEALTH CARE FACILITIES ». Dans Beyond sustainability reflections across spaces. Faculty of Architecture Research Unit, 2021. http://dx.doi.org/10.31705/faru.2021.6.

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Physically disabled community in Sri Lanka is not receiving sufficient attention with reference to the conduciveness of their living environments. The patients who are harrowed with mobility impairments should be supported to overcome challenges which hinder the smooth functioning of day today physical activities while maintaining their psychological health by incorporating disabled-friendly, optimum healing design interventions. In view of this, an attempt was made to determine the impact of interior colours to reduce depression, anxiety and stress levels of disabled individuals. The investigation was executed with reference to wall colour of patient’s (n=15) bedrooms of a selected rehabilitation centre, at Ragama. The impact of three selected hues (blue, yellow and green) were tested by installing colour panels on the sidewall of the beds, allowing the participants to be exposed to each colour for three consecutive days. Depression, anxiety and stress levels of participants were measured using DASS-21. Impact of green colour was found to be more favourable to reduce depression, anxiety and stress levels of participants over blue and yellow. It is recommended to extend this study further to test different hues, shades and intensities of green colour with long-term exposure, to enhance psychological health and well-being of disabled patients in health care facilities.
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Jebens-zirkel imm, Petra, et Alfred Johann Zirkel Zirkel. « Casa Nautilus Solar – Organic contemporary Architecture based on Vernacular Heritage ». Dans HERITAGE2022 International Conference on Vernacular Heritage : Culture, People and Sustainability. Valencia : Universitat Politècnica de València, 2022. http://dx.doi.org/10.4995/heritage2022.2022.14420.

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The common ground between vernacular architecture and contemporary ecological organic architecture (Ecohabitar, 2011pp21) emerges from regional activity adapted to local climate while using natural materials from the surrounding area. A healthy environment is created through the principles of Habitat Biology, which is based on the empirical wisdom of past generations. These actions were, and still are, highly sustainable and regenerative through a “closed circuit” of resources without any damage to the ecosystem. We propose a family home with building biology criteria and bio-climatic design, based on the use of high quality building materials: load bearing walls of sun-dried earth blocks with hemp insulation, earth and lime renders with natural paints, a timber structure and an organic green roof, working together to create healthy, pleasant spaces. This house sets the stage for a life project in a rural setting, focused on a farming and livestock initiative. Independence from the water and energy grids is made possible by rainwater harvesting, a well, a compost toilet, grey water treatment with aquatic plants and the use of renewable energy with simple technology (photovoltaic panels, thermal panels and a heavy Kachelofen-type wood burning stove). The design and form are adapted to the agricultural landscape and emerge from the interior and exterior needs of its inhabitants: solar orientation, exposed construction systems, the proportions of the golden section and appropriate interior and exterior colours.
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Pinheiro Simão Ribeiro, Vivyan, Maria das Graças Machado Freire, Glória Andreia Ferreira Hernández, Michel Picanço Oliveira et Bárbara Ferreira de Oliveira. « Proposal for a new monolithic constructive system using mycocomposite nucleus ». Dans 7th International Congress on Scientific Knowledge. Exatas & Engenharias, 2021. http://dx.doi.org/10.25242/885x331120212419.

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“Green” materials and productive processes have progressively been searched for. In the last years, it has increased the number of researches regarding mycocomposites characterization and, above all, their applicability. Biofabrication is a process that is carried out by incubating the substrate composed of organic residues with fungal mycelium. During incubation, the fungus gradually develops on the substrate, penetrating the microscopic channels of the different residues, and acting both as a reinforcing fiber and as a binding material. This Project was designed to seek the most suitable combination between substrate components and the fungus Ganoderma sp.aiming to obtain a mycocomposite which could be used as a nucleus of an alternative monolithic constructive system. In this project, composites using the fungus Ganoderna sp. and five different types of waste (white wood sawdust, cornstarch, bark and coffee grounds, and piassava fiber) were investigated. The morphology of these components, as well as mycelium and substrate interaction, was studied by scanning electron microscopy technique. The mechanical properties were determined through bending and compression tests, being correlated with the Fourier transform infrared spectroscopy analysis. The fabrication of a mycocomposite panel was proposed as an application; it could be included as the core of the prototype of a building system of walls, structured with steel and mortar. Thus, this project aimed to contribute to the ecosystem’s quality, once the raw material used was composed of organic waste that would be reinserted in a production process instead of being discarded in nature. Besides, the project suggests the production of a new biologically-based material for civil construction.
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Small, Dorothy S. « Technical Considerations in a Zero Energy Home ». Dans ASME 2008 2nd International Conference on Energy Sustainability collocated with the Heat Transfer, Fluids Engineering, and 3rd Energy Nanotechnology Conferences. ASMEDC, 2008. http://dx.doi.org/10.1115/es2008-54179.

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Building a zero energy home requires several major considerations: site selection for the home; considerations to use less; conservation of what you produce; and evaluation the best choices of renewable resources. This paper discusses the use of climate data collection software, heat loss and heat gain considerations and software; how to achieve a zero energy building and qualifying as a LEED (Leadership in Energy and Environmental Design) Certified Platinum home. Site selection is the first step. This first step can be taken after you have identified your goals. What alternative energy systems do you want to use? Do you want to use more than one alternative source? What other site considerations are important? In my case, I wanted to use solar energy as my primary alternative energy source. Why? I want comfort, reliability and ease of use. Other alternatives may require more maintenance. Wind power will be a second source that will be incorporated to produce electricity when the PV system can not produce. The site selected is a south facing mountain that has a steady breeze most of the time. Another consideration for me is the ability to use earth-sheltering as a measure of high efficiency construction. The south-facing mountain also provides the opportunity to “nestle” into the mountainside. Calculations and basis of design are presented. Using less is a key mindset that we all need to move toward. Using less does not mean that you suffer. This house will be comfortable year round with little effort because the house uses passive solar design for lighting and space heating, active solar hot water for additional heating of the floor and domestic hot water, and PV/wind/biodiesel generator backup to generate electricity for lighting and other typical electrical loads. The construction materials provide high R-values and green products that contribute to excellent indoor air quality. SIPs (Structural Insulated Panels) will be used as the structural components for the walls and roof. All electrical appliances, refrigerator, lighting, and washer/dryer were selected to use less electricity and water. Data describing the energy requirements are provided. Reuse all that you can. I am incorporating a masonry heater, also known as a Russian Fireplace. The combustion efficiency of the masonry fireplace is typically 92–94 percent with very low emissions. The masonry fireplace will provide passive mass for passive release of the woodburning energy during the evening and heat hot water coils in the fireplace as well (as the hot water backup system). The use of hard woods from the land will provide heat overnight, heat for cooking and supply additional BTUs for domestic hot water and radiant heat. Many of the building materials that are selected for construction are from the land; stone and whole cut wood from the land will be used for esthetic appeal and thermal mass thereby reducing harmful manufacturer’s emissions. My site is an excellent site for a hybrid solar and wind power (with a biodiesel generator as backup) system. The orientation and wind profile of the land is optimal for solar and wind energy applications. Site specific data and optimization of active solar, passive solar and PV/wind systems are presented. Life cycle costs are presented to show the cost comparison using Years-to-Payback and Return on Investment approaches for the energy systems and LEED certification costs for new construction.
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