Relevant bibliographies by topics / Green building - India

Academic literature on the topic 'Green building - India'

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Published: 6 September 2023

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Journal articles on the topic "Green building - India"

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Singh, Neha. "Case Study Retrofitting an Existing Building for Griha Green Building Certification." International Journal for Research in Applied Science and Engineering Technology 10, no. 7 (July 31, 2022): 182–91. http://dx.doi.org/10.22214/ijraset.2022.45062.

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Abstract: The infrastructure business in India is rapidly increasing. Infrastructure is the most major hindrance to the growth of Indian businesses in India. Existing buildings account for 45 percent of worldwide energy use in the current condition. These constructions' greenhouse gas emissions are mostly to blame for global warming, acid rain, and other environmental difficulties. We can reduce our dependency on limited natural resources like power, water, and materials which use in building while simultaneously enhancing our contribution to environmental quality by incorporating green building themes into the design, construction, and maintenance of buildings, and restoration of our houses. It is a common misconception that only new buildings can be certified as green building, however this is not true. Existing buildings may be made certified green by taking certain step. With each existing building's effort in adopting the existing green building strategies, an enormous effect in combating global warming will be anticipated in return. GRIHA provides green building certification at various levels. There are several ways for meeting these objectives with the cooperation of humans and the use of modern technology and procedures. In retrofitting existing building for GRIHA certification, aspects like site availability, energy efficiency, water efficiency, renewable energy, natural lighting are taken into account. The present paper presents the retrofitting required to transform an existing building to a certified green building with ease and cost effectiveness.
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Kumar, Boddapati Ganesh, and Abhay Tawalare. "Critical Success Factors for Implementation of Green Building in India." IOP Conference Series: Materials Science and Engineering 1203, no. 3 (November 1, 2021): 032061. http://dx.doi.org/10.1088/1757-899x/1203/3/032061.

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Abstract For the sustainable built environment, Green Building technology is the most widely adopted trend worldwide, however, it is in a nascent stage in India. Even though the use of green building technology is advantageous over the lifecycle of the project, people are hesitant to adopt. Therefore, this study aims at identifying the critical factors affecting the implementation of green buildings in India. For this purpose, an extensive literature review was done to identify factors affecting the implementation of green buildings. In total 27 factors were identified which may be critical for the adoption of green building technology widely in an Indian context. The questionnaire was prepared using the five-point Likert scale. The questionnaire was sent through emails to 150 consultants in India and 52 valid responses received in return. The primary data is analyzed using factor analysis. The critical factors found are time and knowledge constraints; technical constraints; authenticity of research and awareness about Green Building. Though the findings of this study are based on the small sample size, it will be beneficial to the policymakers
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Deshpanday, Ishani. "Sustainable Green Building." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (July 25, 2021): 2301–6. http://dx.doi.org/10.22214/ijraset.2021.36572.

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Green building refers to a structure and employing a method that's environmentally accountable and resource economical throughout a building’s life cycle. Since buildings consume nearly five hundredth of the world's total energy, inexperienced buildings, on the other hand, consume a minimum quantity of energy with the utilization of energy economical materials. Hence, location of inexperienced buildings within the close proximity would produce an inexperienced zone and supply a far healthier setting with minimum heat island result. In India there are 2 primary rating systems for inexperienced buildings: GRIHA (green rating for integrated surround assessment), LEED (leadership in energy and setting design). Green buildings compared to standard buildings appear specifically similar and conjointly within the building use, however disagree within the operational savings and considerations for human comfort and indoor and atmosphere. inexperienced buildings get pleasure from the advantages of saving 40-50% energy by reducing greenhouse gas emissions into the atmosphere; it conjointly saves concerning 20-30% of water by victimization rain gathering or gray apply techniques. It conjointly reduces VMT (vehicle miles travelled) by selecting the placement near conveyance and conveniences that helps in reduction of petrol consumption. However, on the opposite hand, inexperienced buildings face several barriers just like the high initial investment needed for construction, split incentives.
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Sharma, Meenakshi. "Development of a ‘Green building sustainability model’ for Green buildings in India." Journal of Cleaner Production 190 (July 2018): 538–51. http://dx.doi.org/10.1016/j.jclepro.2018.04.154.

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Saha, S., R. Hiremath, and P. Sanjay. "Barriers to adoption of green buildings – a review." CARDIOMETRY, no. 22 (May 25, 2022): 377–75. http://dx.doi.org/10.18137/cardiometry.2022.22.377385.

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The global construction sector accounts for 13.2% of the world GDP. It contributes to the world’s economic growth engine and climate changes due to its high energy footprint. Sustainable buildings can reduce the adverse impacts of the construction industry, but their adoption is slow due to hindrances. The purpose of this paper is to extensively review the literature on barriers to green building adoption to date. Also, to highlight the overlapping and unique barriers specific to India compared to few prominent countries, provide solutions and recommendations for future research. The barriers were classified under Economic, Governmental, Organizational, and Social perception, Information, Technology, and material categories. Barriers unique to India and few others developing countries are an extension of project schedules, lack of research and developmental works, lack of public motivation, poor building code enforcement, high payback period, uncertain supply of green materials, improper implementation of policy framework, and performance of GBTs. The green building construction sector is fragmented around the world. Even green building definition is not the same globally, although the environmental aspect is the same. Similarly, there are unique and overlapping challenges in green building adoption globally. Buildings in usage perspectives can be classified into Residential and Non-residential. This study looks only at non-residential buildings due to their homogenous nature. There is a dearth of specific studies related to the adoption of green buildings in India. This study aims to fulfill India’s standing in the barriers to green building adoption concerning the developed and developing countries.
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Brar, Tejwant Singh, and Navneet Munoth. "Solar and Green Building Guidelines for Hot Arid Climate in India." Building Research Journal 61, no. 1 (June 1, 2014): 59–65. http://dx.doi.org/10.2478/brj-2014-0005.

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Abstract There are, presently, two schools of thought when it comes to designing buildings that promote sustainable development. One school emphasizes materials use and ‘‘green’’ buildings, while the other emphasizes energy use and energy efficient buildings. The promoters of ‘‘green’’ buildings often claim that the reduced energy use during operation of the low energy and solar buildings is counteracted by the increased embodied energy in these buildings. This paper gives categorical analysis of the technologies available for Low energy and green architecture and emphasizes the need to integrate both in residential buildings to of lower the energy use in operation during the lifetime in a residential building in hot arid climate. The results also show that there should be little difference between the approaches of the two schools of thought. The best buildings will generally be those that are both low energy, and ‘‘green’’. This paper also gives policy guidelines to integrate them in the building bye-laws for hot arid climate
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Lone, Muzamil Bashir. "Economic Analysis Between Conventional Building and Green Building." International Journal for Research in Applied Science and Engineering Technology 11, no. 2 (February 28, 2023): 530–38. http://dx.doi.org/10.22214/ijraset.2023.49083.

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Abstract: Globally, half of the whole energy is produced and consumed by buildings and is liable for an oversized share of Co2, radiation, and gases. Despite a lot of assessments that have been taken throughout the globe to establish smart and sustainable construction, whereas pollution and global warming are rapidly increasing far and wide universally. Climate changes within the previous few years have conjointly been detected due to a surge in greenhouse gases everywhere on the planet. An initiative for world awareness and global climate change has escalated adequately throughout the earth for the depletion of carbon emissions and harmful gases. The developed countries like Australia, Germany, USA square measure already targeted on this sector, and their government has taken demanding rules to realize eco-friendly and sustainable expansion. Countries like Nepal, India, and Bangladesh face an obstacle regarding the shorter information provided to them in achieving and enhancing eco-friendly construction and property development. Lack of perception amongst the individuals regarding the world wide problems is clouded in economically developing nations. This research paper presents the need for sustainable green construction especially in developing countries like India, Bangladesh has maximum population growth, extremely which are living in most populated areas inflicting a threat to the surroundings, and also the living organisms within the future. This study is specially designated for a building that is designed and created as a conventional building. This Analysis understands the selling price of greening existing buildings before upgrading the building into a sustainable building. The upkeep and operational price are conjointly computed. This study targeted the economic edges and environmental edges once the building is remolded into a Green building.
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Reddy, Pranavamshu, M. V. N. Surendra Gupta, Srijita Nundy, A. Karthick, and Aritra Ghosh. "Status of BIPV and BAPV System for Less Energy-Hungry Building in India—A Review." Applied Sciences 10, no. 7 (March 29, 2020): 2337. http://dx.doi.org/10.3390/app10072337.

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The photovoltaic (PV) system is one of the most promising technologies that generate benevolent electricity. Therefore, fossil fuel-generated electric power plants, that emit an enormous amount of greenhouse gases, can be replaced by the PV power plant. However, due to its lower efficiency than a traditional power plant, and to generate equal amount of power, a large land area is required for the PV power plant. Also, transmission and distribution losses are intricate issues for PV power plants. Therefore, the inclusion of PV into a building is one of the holistic approaches which reduce the necessity for such large land areas. Building-integrated and building attached/applied are the two types where PV can be included in the building. Building applied/attached PV(BAPV) indicates that the PV system is added/attached or applied to a building, whereas, building integrated PV (BIPV) illustrates the concept of replacing the traditional building envelop, such as window, wall, roof by PV. In India, applying PV on a building is growing due to India’s solar mission target for 2022. In 2015, through Jawaharlal Nehru National Solar Mission, India targeted to achieve 100 GW PV power of which 40 GW will be acquired from roof-integrated PV by 2022. By the end of December 2019, India achieved 33.7 GW total installed PV power. Also, green/zero energy/and sustainable buildings are gaining significance in India due to rapid urbanization. However, BIPV system is rarely used in India which is likely due to a lack of government support and public awareness. This work reviewed the status of BIPV/BAPV system in India. The BIPV window system can probably be the suitable BIPV product for Indian context to reduce the building’s HVAC load.
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Tarkar, Preeti. "Energy Efficient Buildings in India: Key Area and Challenges." IOP Conference Series: Earth and Environmental Science 1084, no. 1 (October 1, 2022): 012076. http://dx.doi.org/10.1088/1755-1315/1084/1/012076.

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Abstract A common dilemma for developing countries is to balance economic growth and environmental protection. Since the major issue in designing the building is energy conservation. The costing of building project is another issue in applying the principle of energy. A building uses a huge amount of energy during its lifetime. It is greater than the energy consumed in construction. There are numerous causes why building will use more energy during its life. Taking into account the building materials used in the built environment as well as the overall energy use should be taken into account when looking for ways to minimize energy consumption. In light of climate change, by 2030, India has to reduce the greenhouse gas emissions to 35%. Thus, the aim of this research is to is to find out the measures that can reduce the energy consumption of building not only at the time of construction but also lifetime. The study suggests various energy efficient measures for construction of building and for further functioning. In this paper the concept of green building was discussed to make a building energy efficient. Green building focuses on the reduction of carbon emissions and conservation of energy using a progressive difference-in-differences method. The study suggests the various energy saving concepts. Further, there are many green building rating systems to rate the building on various dimension to measure whether a building is environmental-friendly or not. In the end of the paper various issues involved in energy efficient building’s construction are discussed.
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Rajanikanth, A. "Rock building Cretaceous - Tertiary algae from India - an ecological perspective." Journal of Palaeosciences 40 (December 31, 1991): 399–412. http://dx.doi.org/10.54991/jop.1991.1790.

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Fossil benthonic photosynthetic algae capable of calcification contributed to the formation of Indian Cretaceous-Tertiary carbonate deposits. A comparative assessment of different marine calcareous algal assemblages known from various sedimentary basins and their ecological requirements have been highlighted. A comprehensive synthesis and retrospect of research on calcareous algae demonstrate extensive growth of green and red algae during Cretaceous-Tertiary times in India. The calcareous blue-green algae are feebly represented in the Cretaceous deposits and not recorded from the Tertiary deposits. Various ecological factors determined the distribution of different calcareous algal groups. An apparent extinction of calcareous algae is attributed to gaps in our knowledge and evolutionary changes.
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Dissertations / Theses on the topic "Green building - India"

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Nekomanesh, Sarmad, and Martin Islo. "Institutions for Sustainability : The Case of Green Building Certifications." Thesis, KTH, Industriell ekonomi och organisation (Inst.), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-120466.

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Society is becoming increasingly dependent on the development of institutions generatingsustainability. In order to speed up this development there is a need to find, evaluate andgeneralize existing institutional mechanisms holding this characteristic. In this study, the current theoretical framework is expanded to describe how an institution shouldbe designed to generate sustainability. To explain this, a distinction is made between short-termefficient markets (currently known as Pareto-efficient markets) and long-term efficient markets(currently known as ‘strong’ or ecologic sustainability). Further, a sustainable development isdefined as a combination of short-term and long-term Pareto-efficiency. This implies that aconsumption decision today cannot make an individual better off, without making anothercurrent or future individual worse off. Green building certifications are an interesting candidate to empirically test the theoreticalframework. An empirical study was made in cooperation with Confederation of Indian Industry -Indian Green Building Council, consisting of 18 qualitative interviews with companies andexperts in the Indian building industry. The main purpose of the study has been to investigatewhy actors engage in green building and green building certifications, or why they do not. Theresults have then been analyzed and put in an institutional context. Building on these results, conclusions have been drawn that bring a valuable perspective to theongoing debate on sustainability. Green building certifications have several interestingcharacteristics contributing to a sustainable development. Most importantly, results areindicating that short-term economic efficiency can lead to long-term mechanisms generatingsustainability. However, there are also limitations to the growth of certifications as an institution,e.g. cultural aspects, risk of ambiguity and insufficient levels of human capital.
Utvecklingen av institutioner som genererar hållbarhet blir allt viktigare. För att påskynda dennautveckling finns det ett behov av att hitta, utvärdera och generalisera befintliga institutionellamekanismer som uppfyller denna egenskap. För att kunna beskriva hur en institution bör utformas för att generera hållbarhet, utökar dennastudie det aktuella teoretiska ramverket. En distinktion görs mellan kortsiktigt Pareto-effektivamarknader (detta är att likställas med nuvarande begreppet ’Pareto-effektiva marknader’) ochlångsiktigt Pareto-effektiva marknader (detta är att likställas med ’ekologisk hållbarhet’). Vidareär hållbar utveckling definierad som en kombination av kortsiktigt- och långsiktigt effektivamarknader. Detta innebär att ett konsumptionsbeslut idag inte kan öka välfärden för en individ,utan att minska välfärden för en annan nuvarande eller framtida individ. Certifieringar för hållbart byggande är en intressant kandidat för att empiriskt testa det teoretiskaramverket. Fallstudien gjordes i samarbete med Confederation of Indian Industry - Indian GreenBuilding Council, och består av 18 kvalitativa intervjuer med företag och experter inom denindiska byggindustrin. Det huvudsakliga syftet med studien har varit att undersöka varför aktörerengagerar sig i grönt byggande och certifieringar, eller varför de väljer att inte göra det.Resultaten har sedan analyserats och satts i ett institutionellt sammanhang. Som institution har certifieringarna flera intressanta egenskaper som bidrar till en hållbarutveckling. Slutsatserna i studien skänker ett värdefullt perspektiv till den pågåendehållbarhetsdiskussionen, framförallt genom att påvisa att kortsiktig ekonomisk effektivitet kanleda till mekanismer som skapar hållbar utveckling. Det finns också begränsningar i tillväxten avdenna typ av institution som kan härledas till t.ex. kulturella skillnader, antalet certifieringar påmarknaden samt tillgång till humankapital.
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Shrestha, Shritu [Verfasser], Bernd [Gutachter] Kochendörfer, and Peter [Gutachter] Hennicke. "Comparison of energy efficient and green buildings : technological and policy aspects with case studies from Europe, the USA, India and Nepal / Shritu Shrestha ; Gutachter: Bernd Kochendörfer, Peter Hennicke." Berlin : Universitätsverlag der TU Berlin, 2016. http://d-nb.info/1156332745/34.

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Books on the topic "Green building - India"

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California Integrated Waste Management Board., Humboldt State University. Center for Indian Community Development., Center for Environmental Economic Development., and Boisson & Associates., eds. Building and buying green in Indian Country: A practical guide for California tribes. Sacramento: State of California, Integrated Waste Management Board, 2004.

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Shrestha, Shritu. Comparison of energy efficient and green buildings: Technological and policy aspects with case studies from Europe, the USA, India and Nepal. Berlin: Universitätsverlag der TU, 2016.

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Leed India CS: For core and shell, reference guide version 1.0. Hyderabad: Confederation of Indian Industry, 2008.

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Agarwal, R. S. International Technical Conference on Emerging Trends in Cold Chain Development, Green Buildings, Equipments, Standardization and Certification (ACREX India 2006), February 19-21, 2006. Allied Publishers Pvt. Ltd., 2006.

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Book chapters on the topic "Green building - India"

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Chaturvedi, Pushpendra Kr, Nand Kumar, Ravita Lamba, and Vishakha Nirwal. "A Parametric Optimization for Decision Making of Building Envelope Design: A Case Study of High-Rise Residential Building in Jaipur (India)." In Green Energy and Technology, 453–65. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2279-6_39.

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Mishra, Mugdha, Mohd Talha Khan, and Niraj Kumar. "Green Energy: A Building Block for Smart City in India." In Lecture Notes in Mechanical Engineering, 569–77. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-6577-5_54.

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Shah, Rishika, R. K. Pandit, and M. K. Gaur. "Role of Building Design in Sustainable Green Development: A Review." In Sustainability in the Built Environment in the 21st Century: Lessons Learned from India and the Region, 55–74. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-61891-9_4.

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Shah, Mihir, and P. S. Vijayshankar. "Symbiosis of Water and Agricultural Transformation in India." In India Studies in Business and Economics, 109–52. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-0763-0_5.

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AbstractThis chapter develops the argument for twin propositions: (a) that the crisis in Indian agriculture cannot be resolved without a paradigm shift in water management and governance, and (b) that India’s water crisis requires a paradigm shift in agriculture. If three water-intensive crops use up 80% of agricultural water, the basic water needs of the country, for drinking water or protective irrigation, cannot be met. The paper sets out how this paradigm shift can be effected between 2020 to 2030—by shifting cropping patterns towards crops suited to each agroecological region, moving from monoculture to poly-cultural crop biodiversity, widespread adoption of water-saving seeds and technologies, a decisive move towards natural farming and greater emphasis on soil structure and green water. At the same time, we advocate protection of India’s catchment areas, a shift towards participatory approaches to water management, while building trans-disciplinarity and overcoming hydro-schizophrenia in water governance.
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Piparsania, Kratika, and Pratul Kalita. "Insights on Green Building Rating Systems for Housing in India and Their Assessment with Pillars of Sustainability." In [ ] With Design: Reinventing Design Modes, 2464–84. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-4472-7_159.

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Srivastava, Ashish S., and Rajendra B. Magar. "Design of New Green Building Using Indian Green Building Council Rating System." In RILEM Bookseries, 535–53. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51485-3_36.

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Srivastava, Ashima, Pratibha Singh, N. N. Janhavi, and Avinash Singh. "Green Buildings: Eco-friendly Technique for Modern Cities." In Sustainable Smart Cities in India, 415–32. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-47145-7_26.

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Kanaujia, Kriti. "Green Buildings: Building a Greener City, a Greener Future—An Indian Perspective." In Geoecology of Landscape Dynamics, 223–41. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-2097-6_15.

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Vaid, Manish, and Sanjay Kumar Kar. "Role and the Impact of Policy on Growth of Green Buildings in India." In Sustainability through Energy-Efficient Buildings, 259–71. Boca Raton : Taylor & Francis, CRC Press, 2018.: CRC Press, 2018. http://dx.doi.org/10.1201/9781315159065-13.

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Smith, Russell M., and Prasad Pathak. "Urban Sustainability in India: Green Buildings, AMRUT Yojana, and Smart Cities." In Metropolitan Governance in Asia and the Pacific Rim, 163–90. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0206-0_9.

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Conference papers on the topic "Green building - India"

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Tripathi, Neha Goel, Mahavir Mahavir, and Prabh Bedi. "Contribution of planed urban green spaces for promoting human health. Case of Chandigarh, India." In Post-Oil City Planning for Urban Green Deals Virtual Congress. ISOCARP, 2020. http://dx.doi.org/10.47472/oyzf6988.

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Goal 11 of the Sustainable Development Goals has the seventh target of its Sustainable Cities and Communities focused on providing access to safe and inclusive green and public spaces. Principles of sustainable development necessitate that a balance is struck between environment and development to ensure healthy urban living. It has long been established that the presence of natural areas and planned open green spaces in and around urban settlements contributes to a quality of life by providing important ecological, social and psychological benefits to humans. In India, rapid urbanisation is resulting in significant land being used for developmental activities resulting in decline in open spaces across cities. It needs to be noted, the case in Chandigarh, India is different from rest of the country, where open spaces are considered as inviolable land use. Being a rare exception amongst the cities established immediately after India’s Independence, urban greens were visualized and planned as an integral component in the city’s Master Plan. Le Corbusier conceived the master plan of Chandigarh as analogous to human body, where green spaces symbolized the lungs. The greens in Chandigarh were created as functional, organized and natural spaces for integration and convergence of mind and body, that is the city as well as of its population. The research delves into the aspect of inclusivity of its various green spaces based on the social survey of the city’s residents. The intent is to determine the usability and accessibility of the greens by the residents for various recreational, cultural and ecosystem services. The measures of inclusivity of the green spaces are defined to address the key question being researched upon, that is if green spaces have contributed to Chandigarh being a healthy city. Built upon the social survey tools, the authors discern the typologies of green spaces as the measure for building a healthy city contextualized for Chandigarh.
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Madushika, U. G. D., T. Ramachandra, and N. Zainudeen. "OPERATIONAL ENERGY SAVING IN BUILDINGS: A COMPARISON OF GREEN VS CONVENTIONAL WALL." In The 9th World Construction Symposium 2021. The Ceylon Institute of Builders - Sri Lanka, 2021. http://dx.doi.org/10.31705/wcs.2021.37.

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The green wall concept has been introduced as one of the solutions to reduce energy demand for ventilation requirements while improving the natural vegetation in dense urban areas. Past studies revealed that the energy-saving of green walls can vary substantially, from 35% to 90% across countries such as United Kingdom (UK), Canada, Russia, Greece, China, Saudi Arabia, India, and Brazil. Given these differences in energy saving of green walls due to climatic conditions and other reasons, direct application of such findings to the Sri Lankan context is questionable. Therefore, this study aimed to assess the thermal performance of green wall applications in Sri Lanka through a case study analysis of an indirect green façade with a comparative conventional wall. The required data were extracted through on-site temperature measurements from different points of both the exterior and interior wall surfaces of each building in different time intervals per day for a period of fourteen days spanning from October to November. The analysis shows that the green walls contribute to 21% - 36% of temperature difference compared to the conventional wall. Eventually, this results in 0.06 kWh of energy-saving per m2 of wall area, and thereby green walls contribute to the 80% energy saving for ventilation requirements. Hence, the study recommends that the use of green walls can be considered as one of the energy efficiency solutions while improving natural vegetation in tropical climatic cities and absorbing other benefits of green walls.
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Verma, Saurabh, and Anil Kashyap. "Business Case for Green Buildings in India." In 25th Annual European Real Estate Society Conference. European Real Estate Society, 2016. http://dx.doi.org/10.15396/eres2016_311.

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Ghatikar, Girish, Reji Kumar Pillai, and Akshay Ahuja. "Electric transportation action plan for India." In 2016 First International Conference on Sustainable Green Buildings and Communities (SGBC). IEEE, 2016. http://dx.doi.org/10.1109/sgbc.2016.7936085.

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"Thermal Performance of Vegetated Facades – What India Can Learn." In International Conference on Green Buildings, Civil and Architecture Engineering. Universal Researchers, 2015. http://dx.doi.org/10.17758/ur.u1215317.

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Ashokkumar, Velmurugan, Sivakumar Palaniappan, and Aarthipriya Venkataraman. "Sustainability Indicators of GRIHA Certified Green Buildings in India." In Construction Research Congress 2020. Reston, VA: American Society of Civil Engineers, 2020. http://dx.doi.org/10.1061/9780784482858.064.

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Pillai, Reji Kumar, Rupendra Bhatnagar, and Hem Thukral. "AMI rollout strategy and cost-benefit analysis for India." In 2016 First International Conference on Sustainable Green Buildings and Communities (SGBC). IEEE, 2016. http://dx.doi.org/10.1109/sgbc.2016.7936083.

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Puri, Charu, Amit Rawal, and Naveen Kumar. "Concept Drift Based Analysis of Climatic Impact on Design of Green Buildings." In ASCE India Conference 2017. Reston, VA: American Society of Civil Engineers, 2018. http://dx.doi.org/10.1061/9780784482032.012.

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Umakanth V, Nilabh, Sanjai Kumar, and V. K. Kaul. "Conversion of administrative complex as Net Zero in Central Electronics Limited, India." In 2016 First International Conference on Sustainable Green Buildings and Communities (SGBC). IEEE, 2016. http://dx.doi.org/10.1109/sgbc.2016.7936071.

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Dalal, Rakesh, and Devender Kumar Saini. "Rooftop Solar PV Socket Parity for Commercial Buildings in India." In 2023 5th International Conference on Energy, Power and Environment: Towards Flexible Green Energy Technologies (ICEPE). IEEE, 2023. http://dx.doi.org/10.1109/icepe57949.2023.10201490.

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