UTILIZATION OF GREEN WALLS CONCEPT AND SOLAR PANELS IN CO – WORKING SPACE FOR SUSTAINABILITY AND ENERGY EFFICIENCY
DOI:
https://doi.org/10.24867/05FA04LalovicKeywords:
energy efficiency, green building, solar panels, co – working office, preservation of the environmentAbstract
Intensive research has been undertaken to multiply the number of green building projects using alternative methods of sustainable construction technologies, in order to reduce energy consumption while at the same time increasing the usefulness of natural resources. The project encompasses the implementation of the concept of green walls and solar panels in design of co - working space in order to reduce: the city's thermal island, temperature of the building, demand for cooling and heating energy, and improvement of quality of the working environment. Therefore, it is clear that the main function of this project is the energy optimization of the co – working space for maintaining a certain level of comfort in the workplace, in order to achieve overall energy efficiency. The goal of this project is above all the motivation for re-examining the already established values and setting new goals in the field of environmental protection, and thus the development of human consciousness.
References
[2] Liang Zhou and Fariborz Haghighat (2005) „Optimization of ventilation system design and operation in office environment, Part I: Methodology“. Building and Environment, 44(4), 651-656.
[3] A.L.S. Chan, T.T. Chow, K.F. Fong and Z. Lin (2009) „Investigation on energy performance of double skin façade in Hong Kong“. Energy and Buildings, 41(11), 1135-1142.
[4] Yi-Kai Juan, Peng Gao and Jie Wang (2010) „A hybrid decision support system for sustainable office building renovation and energy performance improvement“. Energy and Buildings, 42(3), 290-297.
[5] Ismail A, Abdul Samad MH, Abdul Rahman A. (2008) „Using green roof concept as a passive design technology to minimise the impact of global warming“. (ICBEDC 2008), Malaysia; 2008. p. 588–98.
[6] Aziz HA, Ismail Z. (2011) „Design guideline for sustainable green roof system“. Malaysia:IEEE;2011;198–203
[7] Cristian Ghiaus and Claude-Alain Roulet (2005) „Strategies for natural ventilation“. In Cristian Ghiaus & Francis Allard (Eds) (pp. 136-157). London: Earthscan.
[8] Ahmed MHB , Rashid R. (2009) „Thermal performance of rooftop greenery system in tropical climate of Malaysia“. In: Proceedings of the conference on technology & sustainability in the built environment; p.391–408.
[9] Web izvor: http://morganlovell.co.uk
[10] Web izvor: http://k2space.co.uk
[11] Web izvor: http://mindspace.me
[12] Zain ZM,Taib MN,Baki SMS. (2007) „Hot and humid climate: prospect for thermal comfort in residential building. Desalination; 209:261–8.
[13] Wong NH,Chen Y, Ong CL, Sia A. (2003) „Investigation of thermal benefits of rooftop garden in the tropical environment“. Build Environ; 38:261–70.
[14] Ahmed MHB , Rashid R. (2009) „Thermal performance of rooftop greenery system in tropical climateof Malaysia“. In: Proceedings of the conference on technology & sustainability in the built environment; p.391–408.
[15] Picot X. (2004) „Thermal comfort in urban spaces: impact of vegetation growth: case study: Piazza della Scienza, Milan, Italy. Energy Build; 36:329–34.
[16] Skinner CJ. (2006) „Urban density, meteorology and rooftops“. Urban Policy Res; 24:355–67.
[17] Shiah K, Kim JW, Oldridge S. (2011) “An investigation into the application of vertical garden at the New SUBAtrium”. Vancouver,Canada: The University of British Columbia; 2011.
[18] Loh s. (2008) “Living wall – a way to green the built environment”. Australia: Royal Australian Institute of Architect; 8.
[19] Wong NH, Tan AYK, Tan PY, Wong NC. (2009) “Energy simulation of vertical greenery systems”. EnergyBuild 2009; 41:1401–8.
[20] Wong NH, Tan AYK, Tan PY, Sia A, Wong NC. (2010) “Perception studies of vertical greenery systems in Singapore”. J UrbanPlanDev – ASCE; 136:330–8.
[21] Yu C, Hien W. (2009) “Thermal impact of strategic landscaping incities: a review.” Adv BuildEnergyRes(ABER); 3:237.
[22] Web izvor: http://archive.glassonline.com
[23] Web izvor: http://rechargenews.com
