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CLIMATE CHANGE –AN ISSUE & ITS CHALLENGES
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WeatherClimate Time ( Atmospheric condition of a place ) {For long period} {For short period} [element :- temperature, pressure, wind, humidity & rain]
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Climate Change = climate + change According to IPCC “Climate change refers to change of climate that is attributed directly or indirectly to the human activity that alters the composition of global atmosphere & that is in addition to natural climate variability observed over comparable time period.”
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causes Human cause Greenhouse Gases Natural causes Continental drift Volcanoes Ocean current Solar variations
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Greenhouse Gases :-
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Source: USGCRP (2009) USGCRP (2009)
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IMPACTS OF BUILDING ON CLIMATE :- Life Cycle Analysis (LCA) - * quantify the life time environmental impacts of buildings * based on energy consumption
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SOURCE -
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IMPACTS OF CLIMATE CHANGE ON THE BUILDINGS:- As the climate changes there is a danger that current building designs will not be suitable for the new climate. Climate change can affect buildings – 1- directly (through weather and climate), 2- indirectly(utility and material costs, and legislation) Some of the climate change impacts are following -
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RiskPossible Effects Rising temperature Impact on external surfaces; thermal performance of building More intense rainfall Greater intensity of runoff; issues of structural integrity; drainage; opportunities for capturing rainfall More frequent / intense cyclones Greater strain on building material fixtures, claddings and fasteners; greater wind loading requirements More frequent flooding Sea level rise leading to coastal and inland flooding; more coastal salt spray; water damage to building contents; contamination from sewage, soil and mud; undermining of foundations More fire events Total or partial fire damage; smoke and water damage More hail storms Impact damage (mostly roofs, guttering, windows) and subsequent rain/moisture penetration Increased humidity Mould; condensation; decreased thermal performance of building Decreased humidity Higher risk of fire SOURCE - IPCC
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Mitigation # it is a process of reducing effect of climate change. Energy Efficient Buildings - “ Energy efficient buildings can be defined as buildings that are designed to provide a significant reduction of the energy need for heating and cooling, independently of the energy and of the equipment that will be chosen to heat or cool the building. ” Energy efficient buildings This can be achieved through the following concept -
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The trias Energetica Concept SOURCE -
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# Opportunities for energy efficiency in building - 1. Building materials – > Design for long life and adaptability, using durable low maintenance materials; > Avoid building a bigger house than you need. This will save materials; > Modify or refurbish instead of demolishing; >Waste material are re-used or recycled; > Select low embodied energy materials ; > Use locally sourced materials when possible to reduce transport;
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2. Envelope - SOURCE -
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3. Energy supply - >operational energy normally accounts for the major part of the total energy used in buildings.
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Energy Efficiency Models 1.Zero-energy buildings – > These buildings produce as much energy as they consume over a full year. Ie. energy consumption – energy generation = 0 > micro generation technologies can be applied to provide heat and electricity to the building. Ex. - solar cells and small scale wind turbines solar thermal collectors, solar electricity and micro combined heat and power installations
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Example - WWF zero-energy housing project :- Source – WWF The houses use passive solar energy, PV systems, co-generation, conservatories, thermal power station, sun rooms, solar collectors, and heat recovery systems.
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2. Passive houses - >a comfortable interior climate can be maintained with-out active heating and cooling systems. >The house heats and cools itself, and is therefore ‘passive’. Source - http://www.passiv.de
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3. Green building - >a structure that is environmentally responsible and resource-efficient throughout a building's life-cycle. > designed to reduce the overall impact of the built environment on human health and the natural environment by- 1. Efficiently using energy, water, and other resources 2. Reducing waste, pollution and environmental degradation Example –Auroville green city –
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Sustainable Technology in Auroville - >Solar Technology >Solar Electricity >Solar Water Pumping and Heaters >Electric Vehicle (EV) Technology >Wastewater Technology >Wind Technology
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Adaptation for building Design:- # Adaptation is the process to prepare for future impacts. 1. Increasing temperatures – > Thermal mass to reduce the internal temperature variation > Insulation and the use of low emissivity roofing paints >high performance glazing >External shading >Cross ventilation
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2. coastal storm – >Retreat from coastal areas >Accommodate surges >Protect land infrastructure and buildings from coastal storm 3. Flooding – > Exceed minimum floor levels >Consider multi-story construction >Use water-resistant materials >Build a flood wall around the building 4. Tropical cyclones – >designing building more aerodynamically >employing curved corners >also additional construction and fixing requirements which are necessary to hold down roofs
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Conclusion By using proper mitigation and adaptation for building design,we can reduce the challenges of climate change.
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Refrences 1.Adapting to Climate Change New Methods and Estimates, Consultation Draft, World Bank. 2.CIRIA, 2005, Climate Change Risks in Building: An introduction, CIRIA, London 3.Damilola Sobo, Zachary Hoberg (2010) “Sustainable Living in Auroville” 4.UNFCCC (2010) United Nations Framework on Climate Change, 5.Sylvie Lemmet(2009), “Buildings and Climate Change”,Summary for Decision-Makers
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