This document discusses green building principles and techniques. It defines green building as a system that aims to reduce energy and waste while improving the environment and occupant health. Specific green building objectives mentioned are having low environmental impact, energy efficiency, occupant health, minimizing waste. Green roofs, building materials, water conservation methods, natural and industrial lighting, solar cells, and their costs and benefits are also discussed. In conclusion, green buildings can provide energy savings, reduce water and emissions, improve indoor air quality, and boost productivity and the economy.
Enviroment and sustainablity of buildingstahia130136
This document provides an overview of a presentation on environmental and sustainable issues for tall buildings. It discusses key topics like green architecture, sustainable building features, bioclimatic issues and their relationship to tall buildings, energy efficiency importance and different ways to make buildings energy efficient, as well as LEED and SEED certification criteria. The presentation covers characteristics of green architecture, advantages of green buildings over conventional buildings, and examples of sustainable high-rise buildings that utilize natural sources, reuse energy, and energy efficient devices to reduce their environmental impact.
This PowerPoint includes information about Green Architecture and examples of increasing energy efficiency with also some sustainable buildings of famous architects..
Shelter is a fundamental human need, and humans have evolved their housing over time from caves to modern buildings. However, modern construction causes environmental issues like energy and resource consumption. Green buildings aim to reduce these impacts through principles like efficient design, natural ventilation, renewable energy and water recycling. Planning elements for green buildings include site selection for sunlight and drainage, reducing the urban heat island effect, and implementing water and energy efficiency measures like rainwater harvesting, low-flow fixtures, passive solar design, and renewable energy sources.
- Green building refers to structures that are environmentally responsible and efficient in their resource use throughout construction and use.
- Buildings account for large portions of energy use, water use, and carbon emissions. Green building aims to reduce these environmental impacts.
- Key aspects of green building include using renewable energy like solar power, efficient water harvesting and use, recycled and sustainable materials, and reducing waste and pollution.
- Taipei 101 is an example of one of the largest and tallest green buildings in the world.
- Benefits of green building include reduced operating costs, conservation of natural resources, and improved health and productivity for occupants.
The Bosco Verticale in Milan features over 13,000 plants and trees across two residential towers, representing one of the most intensive green façades ever created. Sophisticated engineering was required to support the extensive plantings, including wind tunnel testing to ensure structural integrity. The project provides environmental benefits by introducing biodiversity to the city and mitigating factors like pollution and heat through the trees. Residents enjoy the greenery both visually and through its environmental impacts.
Green Building: Sustainable Architecture
Environmentally responsible and resource efficient building design. Architecture that minimizes the negative environmental impact of buildings by efficiency in the use of materials and energy. Goal: to effectively reduce the overall impact of the built environment on human health and the natural environment and increase comfort and livability. Consistent with AIA sponsored Architecture Challenge 2030.
McNaughton Architectural Inc. | http://mna-p.com
300 E State St Suite 360, Redlands, CA 92373
(909) 583-1806
How to use natural building materials in your green homeThe_Alternative
Vinay of ZED Habitats talks about natural building material - what, benefits and how you can use it to reduce carbon footprint in your home. More at www.thealternative.in/greenprint-your-home
Climatology is the study of climate elements like temperature, humidity, wind etc and their impact on architecture. Architectural climatology involves studying how climate affects human comfort and designing the built environment accordingly. Key considerations include site planning based on topography, passive solar design, daylighting, ventilation, moisture control and noise control. Design strategies aim to benefit from positive climate elements while mitigating negative impacts through techniques like insulation, absorption, damping, isolation and appropriate material selection.
Enviroment and sustainablity of buildingstahia130136
This document provides an overview of a presentation on environmental and sustainable issues for tall buildings. It discusses key topics like green architecture, sustainable building features, bioclimatic issues and their relationship to tall buildings, energy efficiency importance and different ways to make buildings energy efficient, as well as LEED and SEED certification criteria. The presentation covers characteristics of green architecture, advantages of green buildings over conventional buildings, and examples of sustainable high-rise buildings that utilize natural sources, reuse energy, and energy efficient devices to reduce their environmental impact.
This PowerPoint includes information about Green Architecture and examples of increasing energy efficiency with also some sustainable buildings of famous architects..
Shelter is a fundamental human need, and humans have evolved their housing over time from caves to modern buildings. However, modern construction causes environmental issues like energy and resource consumption. Green buildings aim to reduce these impacts through principles like efficient design, natural ventilation, renewable energy and water recycling. Planning elements for green buildings include site selection for sunlight and drainage, reducing the urban heat island effect, and implementing water and energy efficiency measures like rainwater harvesting, low-flow fixtures, passive solar design, and renewable energy sources.
- Green building refers to structures that are environmentally responsible and efficient in their resource use throughout construction and use.
- Buildings account for large portions of energy use, water use, and carbon emissions. Green building aims to reduce these environmental impacts.
- Key aspects of green building include using renewable energy like solar power, efficient water harvesting and use, recycled and sustainable materials, and reducing waste and pollution.
- Taipei 101 is an example of one of the largest and tallest green buildings in the world.
- Benefits of green building include reduced operating costs, conservation of natural resources, and improved health and productivity for occupants.
The Bosco Verticale in Milan features over 13,000 plants and trees across two residential towers, representing one of the most intensive green façades ever created. Sophisticated engineering was required to support the extensive plantings, including wind tunnel testing to ensure structural integrity. The project provides environmental benefits by introducing biodiversity to the city and mitigating factors like pollution and heat through the trees. Residents enjoy the greenery both visually and through its environmental impacts.
Green Building: Sustainable Architecture
Environmentally responsible and resource efficient building design. Architecture that minimizes the negative environmental impact of buildings by efficiency in the use of materials and energy. Goal: to effectively reduce the overall impact of the built environment on human health and the natural environment and increase comfort and livability. Consistent with AIA sponsored Architecture Challenge 2030.
McNaughton Architectural Inc. | http://mna-p.com
300 E State St Suite 360, Redlands, CA 92373
(909) 583-1806
How to use natural building materials in your green homeThe_Alternative
Vinay of ZED Habitats talks about natural building material - what, benefits and how you can use it to reduce carbon footprint in your home. More at www.thealternative.in/greenprint-your-home
Climatology is the study of climate elements like temperature, humidity, wind etc and their impact on architecture. Architectural climatology involves studying how climate affects human comfort and designing the built environment accordingly. Key considerations include site planning based on topography, passive solar design, daylighting, ventilation, moisture control and noise control. Design strategies aim to benefit from positive climate elements while mitigating negative impacts through techniques like insulation, absorption, damping, isolation and appropriate material selection.
Green Architecture also known as “sustainable architecture” and “green building” is an approach to architectural design which emphasizes the place of the buildings with both local ecosystems & global environment.
Sustainable architecture is architecture that seeks to minimize the negative environmental impact of buildings by efficiency and moderation in the use of materials, energy, and development space.
Sustainable architecture uses a conscious approach to energy and ecological conservation in the design of the built environment.
The idea of sustainability, or ecological design, is to ensure that our actions and decisions today do not inhibit the opportunities of future generations.
Bioclimatic design at the site planning scaleKomal Arora
Bioclimatic design aims to create buildings and spaces that meet energy needs without harming the environment. It focuses on integrating architectural design with local climate conditions like sunlight, wind and vegetation. Key principles include considering the local weather, reducing energy usage, and using passive solar heating and natural ventilation. Examples of bioclimatic design techniques at the site planning scale include using landforms and plants for wind protection, shading, and directing summer breezes to naturally condition outdoor spaces and buildings.
The document provides information about the ITC Green Centre in Gurgaon, India, which was the first building in India to receive LEED Platinum certification. Some key points:
- The building uses various sustainable design features and technologies to reduce its environmental impact, saving over 50% on projected energy costs.
- Examples include use of local and recycled materials, rainwater harvesting, green roofing, solar power, and efficient water and energy systems.
- Its "L" shape and central atrium promote natural light and ventilation to reduce energy needs.
This presentation is a basic introduction to the concepts underlying carbon neutral design. It looks at a LEED Platinum building that is also a carbon neutral building for some ideas as to how to achieve this goal.
Green building aims to reduce environmental impact and improve occupant health. It incorporates features like energy and water efficiency, better materials, waste management, and indoor air quality. Converting an existing building to green involves adopting green practices during renovation like renewable energy, non-potable water usage, and low-VOC materials. Imperial Heritage is analyzing cost-effective green upgrades like fly ash bricks, double glazing, and rooftop gardens. Certification provides recognition and long-term cost savings through reduced utility bills and maintenance needs.
The document provides information about the Energy Research Institute (TERI) in Bangalore, India. It discusses the location, climate, introduction, orientation, and various passive design strategies used in the building. The building is oriented along an east-west axis with the northern side open to take advantage of glare-free light. Passive strategies include a double cavity wall on the south side for insulation, an atrium space with skylights to bring in natural light, and an earth air tunnel system for passive cooling and heating. The design aims to minimize energy usage through various architectural and passive design elements that respond to the local climate and environment.
This document discusses principles of sustainable architecture that can be incorporated in designing film institutes and film studios. It discusses using local and natural materials, renewable energy sources, passive cooling and heating techniques, green roofs, and minimizing resource usage. Case studies of sustainable buildings like the Mati Ghar cultural center and Ken Yeang's conceptual Nara Tower are provided as examples of implementing these principles through features like natural ventilation systems, vertical landscaping, and optimized building forms.
Pixel Building in Melbourne, Australia is a prototype commercial building that generates its own energy and collects its own water. It uses various sustainable design features like night cooling, fresh air ventilation, solar panels, a gas-fired absorption chiller, rainwater collection, a green roof, vacuum toilets, and an anaerobic digester. These allow it to be fully self-sufficient in energy and water use, earning it top ratings on green building certification systems. Its pixelated colorful facade is a striking architectural feature that minimizes heat gain and maximizes daylighting.
Green architecture aims to minimize environmental impacts and prioritize sustainability. It focuses on efficient energy and water usage, non-toxic materials, and passive solar design. Green buildings provide environmental benefits like pollution reduction and conservation of resources, as well as economic benefits from reduced utility costs and improved occupant productivity. Sustainable design principles include considerations for site development, materials selection, energy efficiency, and indoor air quality.
Green Building Case Study on TERI,bangalore.Vinay M
This presentation basically encompasses the green practices which are followed or incorporated in the structure to attain the platinum rating systems and posses the sustainable features that way..!!
grenn architecture, concept of sustainability, green architecture journalism, introduction of green architecture, principle of green building design, natural buildings, passive solar design, green building material, living architecture, green walls, green building benefits, methodology of green architecture.
The Wind and Water Café in Vietnam uses passive cooling strategies to create a naturally air conditioned environment without mechanical cooling. Strategies like solar control through shading and spatial planning, air ventilation through the building form and orientation, and evaporative cooling through surrounding water and plants were employed. Solar control and air ventilation were effective, while evaporative cooling was less effective due to high humidity. The café saved 90% of electricity compared to air conditioned buildings.
The document summarizes the municipal building green roof project in State College Borough. Workers installed a 1,400 square foot green roof over the community room to reduce building temperatures, filter pollution, reduce greenhouse gases, and stormwater runoff. Plants were established in plastic modules at a nursery before being hoisted by crane and installed in trays onto the roof. Over the next year, the green roof will be monitored and require little maintenance after the plants are established. The project received grant funding and will serve as an educational tool to encourage sustainability.
Green building design aims to minimize environmental impact and improve occupant health. It incorporates sustainable site design, energy and water efficiency, materials selection, indoor environmental quality, and orientation for solar gain. Benefits include reduced operating costs, improved air quality, and increased occupant well-being and productivity. Common characteristics are use of renewable materials and energy, water and waste reduction strategies, and high-performance building envelopes.
There are several eco-friendly materials commonly used in construction that help make homes more energy efficient and environmentally friendly. These include recycled steel, which can save up to 75% of the energy used to produce normal steel; wood-plastic composite lumber, which is more durable than treated wood; insulating concrete forms that can reduce energy consumption in buildings by 20%; and low-emissivity windows that help insulate homes and can lower heating and cooling costs by 20%. Using these materials can help homeowners save up to 45% on energy costs and be part of the green building trend.
Presentation looks at the entire context of Bamboo as a critical green building- material which being called steel of 21st century- in terms of its advantages and use in creating sustainable, cost-effective, earthquake resistant and green buildings
This document provides an overview of green building seminar report that discusses key elements of green buildings including siting, energy efficiency, passive solar design, renewable energy, and material efficiency. It describes various methods and materials used in green construction for sites, structures, floors, roofs, insulation, and more. Indoor environmental quality guidelines are also covered, focusing on durability, reusability, and reducing indoor pollutants. The conclusion emphasizes that green building design is important for environmental protection and benefits owners through reduced costs.
Green Architecture also known as “sustainable architecture” and “green building” is an approach to architectural design which emphasizes the place of the buildings with both local ecosystems & global environment.
Sustainable architecture is architecture that seeks to minimize the negative environmental impact of buildings by efficiency and moderation in the use of materials, energy, and development space.
Sustainable architecture uses a conscious approach to energy and ecological conservation in the design of the built environment.
The idea of sustainability, or ecological design, is to ensure that our actions and decisions today do not inhibit the opportunities of future generations.
Bioclimatic design at the site planning scaleKomal Arora
Bioclimatic design aims to create buildings and spaces that meet energy needs without harming the environment. It focuses on integrating architectural design with local climate conditions like sunlight, wind and vegetation. Key principles include considering the local weather, reducing energy usage, and using passive solar heating and natural ventilation. Examples of bioclimatic design techniques at the site planning scale include using landforms and plants for wind protection, shading, and directing summer breezes to naturally condition outdoor spaces and buildings.
The document provides information about the ITC Green Centre in Gurgaon, India, which was the first building in India to receive LEED Platinum certification. Some key points:
- The building uses various sustainable design features and technologies to reduce its environmental impact, saving over 50% on projected energy costs.
- Examples include use of local and recycled materials, rainwater harvesting, green roofing, solar power, and efficient water and energy systems.
- Its "L" shape and central atrium promote natural light and ventilation to reduce energy needs.
This presentation is a basic introduction to the concepts underlying carbon neutral design. It looks at a LEED Platinum building that is also a carbon neutral building for some ideas as to how to achieve this goal.
Green building aims to reduce environmental impact and improve occupant health. It incorporates features like energy and water efficiency, better materials, waste management, and indoor air quality. Converting an existing building to green involves adopting green practices during renovation like renewable energy, non-potable water usage, and low-VOC materials. Imperial Heritage is analyzing cost-effective green upgrades like fly ash bricks, double glazing, and rooftop gardens. Certification provides recognition and long-term cost savings through reduced utility bills and maintenance needs.
The document provides information about the Energy Research Institute (TERI) in Bangalore, India. It discusses the location, climate, introduction, orientation, and various passive design strategies used in the building. The building is oriented along an east-west axis with the northern side open to take advantage of glare-free light. Passive strategies include a double cavity wall on the south side for insulation, an atrium space with skylights to bring in natural light, and an earth air tunnel system for passive cooling and heating. The design aims to minimize energy usage through various architectural and passive design elements that respond to the local climate and environment.
This document discusses principles of sustainable architecture that can be incorporated in designing film institutes and film studios. It discusses using local and natural materials, renewable energy sources, passive cooling and heating techniques, green roofs, and minimizing resource usage. Case studies of sustainable buildings like the Mati Ghar cultural center and Ken Yeang's conceptual Nara Tower are provided as examples of implementing these principles through features like natural ventilation systems, vertical landscaping, and optimized building forms.
Pixel Building in Melbourne, Australia is a prototype commercial building that generates its own energy and collects its own water. It uses various sustainable design features like night cooling, fresh air ventilation, solar panels, a gas-fired absorption chiller, rainwater collection, a green roof, vacuum toilets, and an anaerobic digester. These allow it to be fully self-sufficient in energy and water use, earning it top ratings on green building certification systems. Its pixelated colorful facade is a striking architectural feature that minimizes heat gain and maximizes daylighting.
Green architecture aims to minimize environmental impacts and prioritize sustainability. It focuses on efficient energy and water usage, non-toxic materials, and passive solar design. Green buildings provide environmental benefits like pollution reduction and conservation of resources, as well as economic benefits from reduced utility costs and improved occupant productivity. Sustainable design principles include considerations for site development, materials selection, energy efficiency, and indoor air quality.
Green Building Case Study on TERI,bangalore.Vinay M
This presentation basically encompasses the green practices which are followed or incorporated in the structure to attain the platinum rating systems and posses the sustainable features that way..!!
grenn architecture, concept of sustainability, green architecture journalism, introduction of green architecture, principle of green building design, natural buildings, passive solar design, green building material, living architecture, green walls, green building benefits, methodology of green architecture.
The Wind and Water Café in Vietnam uses passive cooling strategies to create a naturally air conditioned environment without mechanical cooling. Strategies like solar control through shading and spatial planning, air ventilation through the building form and orientation, and evaporative cooling through surrounding water and plants were employed. Solar control and air ventilation were effective, while evaporative cooling was less effective due to high humidity. The café saved 90% of electricity compared to air conditioned buildings.
The document summarizes the municipal building green roof project in State College Borough. Workers installed a 1,400 square foot green roof over the community room to reduce building temperatures, filter pollution, reduce greenhouse gases, and stormwater runoff. Plants were established in plastic modules at a nursery before being hoisted by crane and installed in trays onto the roof. Over the next year, the green roof will be monitored and require little maintenance after the plants are established. The project received grant funding and will serve as an educational tool to encourage sustainability.
Green building design aims to minimize environmental impact and improve occupant health. It incorporates sustainable site design, energy and water efficiency, materials selection, indoor environmental quality, and orientation for solar gain. Benefits include reduced operating costs, improved air quality, and increased occupant well-being and productivity. Common characteristics are use of renewable materials and energy, water and waste reduction strategies, and high-performance building envelopes.
There are several eco-friendly materials commonly used in construction that help make homes more energy efficient and environmentally friendly. These include recycled steel, which can save up to 75% of the energy used to produce normal steel; wood-plastic composite lumber, which is more durable than treated wood; insulating concrete forms that can reduce energy consumption in buildings by 20%; and low-emissivity windows that help insulate homes and can lower heating and cooling costs by 20%. Using these materials can help homeowners save up to 45% on energy costs and be part of the green building trend.
Presentation looks at the entire context of Bamboo as a critical green building- material which being called steel of 21st century- in terms of its advantages and use in creating sustainable, cost-effective, earthquake resistant and green buildings
This document provides an overview of green building seminar report that discusses key elements of green buildings including siting, energy efficiency, passive solar design, renewable energy, and material efficiency. It describes various methods and materials used in green construction for sites, structures, floors, roofs, insulation, and more. Indoor environmental quality guidelines are also covered, focusing on durability, reusability, and reducing indoor pollutants. The conclusion emphasizes that green building design is important for environmental protection and benefits owners through reduced costs.
Iaetsd eco friendly construction methods and materialsIaetsd Iaetsd
The document discusses various eco-friendly construction methods and materials that can be used to build green infrastructure and reduce environmental impacts. It describes approaches like using compacted fly ash blocks and stabilized mud blocks made from local waste materials in construction. The document also discusses the benefits of blended cement, green roads using recycled plastics and aggregates, and building eco-friendly houses that maximize natural lighting and ventilation to reduce energy usage. The goal of these sustainable construction techniques is to optimize natural resource use and minimize greenhouse gas emissions.
The document discusses strategies for making buildings more energy efficient and environmentally friendly. It outlines various approaches used in green buildings, including using fly ash bricks and concrete to reduce emissions, installing double-glazed windows, harvesting solar energy, composting food waste, collecting rainwater, and employing drip irrigation. The paper argues that adopting these types of practices in construction and building operations can significantly decrease environmental impacts and lower energy consumption compared to traditional buildings.
IRJET - Advantages of Green Material Used ConstructionIRJET Journal
This document discusses the advantages of using green materials in construction as an alternative to conventional materials like brick and concrete. Green building materials are more sustainable because they are recycled, require less energy to produce, and minimize environmental impacts. Examples of green materials mentioned include wool brick made from wool and seaweed, solar tiles integrated into roofing to generate electricity, and GFRG panels made from recycled phosphogypsum that provide insulation and are cheaper and faster to install than other materials. The document argues that using sustainable green materials in construction can help reduce pollution, waste, and the depletion of natural resources.
This document discusses environmental friendly buildings and provides examples. It begins with an introduction stating that buildings are major contributors to energy use and emissions. Green building practices aim to reduce environmental impacts. Environmental friendly buildings do not harm the environment and are helpful to it. Examples given include the Bullitt Center in Seattle which uses solar power and rainwater capture. Benefits of environmental friendly buildings include emissions reductions, water conservation, and economic benefits like energy/water savings and increased property values. The document advocates for more widespread adoption of green building practices.
Global warming is a serious problem that is addressed through green technologies. The document outlines 10 examples of green technologies: 1) emissions treatment to reduce greenhouse gases from industries, 2) waste-to-energy technologies that generate energy from waste, 3) advanced recycling and waste management technologies, 4) biofuels produced from waste, 5) wastewater treatment technologies, 6) solar energy systems, 7) wave and tidal energy technologies, 8) eco-friendly vehicles, 9) smart buildings that generate their own energy, and 10) vertical gardens and indoor farming that conserve resources. While green technology has advanced, more remains to be done to implement solutions to reduce pollution and waste globally.
Analysis of Upgradation of a Convectional Building into Green BuildingIJSRD
The phenomenon of global warming or climate change has led to many environmental issues including higher atmospheric temperatures, intensive precipitation, and increased Greenhouse gaseous emission and of course increased indoor discomfort condition. Researchers worldwide collectively agreed that one way of reducing the impact of global warming is by implementing Green Roof Technology which integrates vegetation, growing medium and water proofing membrane on top of the roof surface. This study emphasized to first analysis a convectional Building than upgrade it to a Green Building by the use of some Eco- Friendly materials. In addition to this by the use of some smart electrification work we can also conserve an ample amount of energy in a Convectional Building. Than by the use of different agencies which would provide checklist for Green Building we can rate a Convectional Building which is been upgraded into a Green Building..The objectives of this research were is Reduction in the indoor temperature of the room contributes reduction in energy consumption in the building. By the use of smart electrification an ample amount of energy can also be conserved. By the use of eco- friendly materials and waste products an ample amount of money can also be saved. Although by the up gradation of convectional building the initial cost will be high because of the use of some special material such as solar panel, rain water harvesting system but their application will return 10 times of what we invested
Green building aims to reduce environmental impact through sustainable practices like efficient energy and water use, healthy material selection, and waste reduction. It incorporates passive solar design, renewable energy, and water recycling to lessen resource consumption and promote occupant well-being over the entire building lifecycle from construction to demolition.
Green roofs, external and internal walls - Hulfarin Keren & Nbewany SallyTagit Klimor
This document provides an introduction and literature review on green roofs and walls. It begins with background on the need for more sustainable building practices given issues like the urban heat island effect. It then defines green roofs and walls, describing their benefits such as improved thermal regulation of buildings, reduced air and water pollution, and decreased energy demands. The document reviews literature on green roof retrofitting around the world and their performance in different climates. It presents case studies and a discussion of the topic, ultimately concluding that green roofs and walls can help address sustainability challenges in cities if their long term environmental and economic benefits are considered.
The document discusses key facts about green buildings and LEED certification in India. It provides information on the categories used to award LEED credits, including sustainable sites, energy and atmosphere, water efficiency, indoor environmental quality, and materials and resources. It also summarizes some examples of notable green buildings in India that have received LEED certification, highlighting various sustainable features and energy/water savings achieved through their designs.
The document discusses green building principles and materials. It defines green building as construction practices that are environmentally responsible and efficient over a building's entire lifecycle. Green buildings aim to reduce energy and water usage, minimize waste, and promote health. Key principles include sustainable site design, water conservation, energy efficiency, indoor environmental quality, and use of green materials like recycled steel and dimension stone. The case study highlights the CII Godrej Green Building Center in India, which uses strategies like solar power, natural ventilation, water recycling, and earth sheltering to achieve high resource efficiency.
Green buildings are Eco-friendly, resource efficient and are very energy efficient. They are more comfortable and easier to live with due to low operating and owning costs.
This presentation consists of brief introduction about green buildings, their design and benefits.
Best Regards:
Engr. Muhammad Ali Rehman
Green building materials and techniques focus on increasing resource efficiency and reducing environmental impacts. Emphasis is placed on using renewable, recycled, and reclaimed materials to reduce energy and waste. While green buildings may have higher initial costs, they provide long-term cost savings through reduced operating expenses and increased health and productivity benefits. Emerging technologies like nanotechnology also show potential to further increase the sustainability and performance of building materials.
This document summarizes a seminar on energy saving in green buildings. It discusses key concepts of green buildings such as reducing energy and resource consumption. It compares green buildings to conventional buildings and outlines tangible benefits like reduced operating costs and intangible benefits like environmental and health improvements. It also examines aspects of green building design like building orientation, envelope measures, lighting and renewable energy to reduce energy consumption. The presentation concludes that adopting green building practices can help reduce environmental impacts while providing human comfort in an eco-friendly way.
This document discusses green buildings. It defines green buildings as structures that are environmentally responsible and resource efficient throughout their lifecycle. It outlines the benefits of green buildings, which include social, environmental and economic benefits like enhanced occupant health and comfort, conservation of natural resources, and reduced operating costs. It also discusses factors to consider in green building like location, daylighting, orientation, materials used, and merits and demerits. Examples of green buildings in India that have received LEED certification are provided.
Concept and Method for Energy Efficient Building: an OverviewIRJET Journal
This document discusses concepts and methods for creating energy efficient buildings. It begins by outlining the problems caused by fossil fuel usage, such as environmental degradation and climate change. Buildings account for a large portion of global energy consumption and greenhouse gas emissions. The document then reviews literature on the benefits of energy efficient buildings, including positive impacts on the environment and health, cost savings over time, and reduced water usage. It advocates designing buildings to maximize renewable energy sources like sunlight, utilize energy efficient materials and practices, and implement water and resource conservation techniques. The overall goal is to meet energy needs while minimizing environmental impacts.
This document outlines a seminar on energy saving in green buildings presented by Mr. Akshay B. Kathalkar and guided by Prof. R.M. Phuke in the Department of Civil Engineering at Akola College of Engineering and Technology. The seminar discusses green building concepts, comparisons to conventional buildings, energy consumption in buildings, and approaches to reducing energy usage through proper orientation, envelope measures, equipment and systems, and use of renewable energy. The conclusion emphasizes that green buildings have financial, health, and environmental benefits and can help reduce the minimal impact on the environment.
Green building, also known as sustainable construction, aims to reduce environmental impact through resource efficient design and construction practices. It includes techniques like optimizing energy efficiency, using renewable materials, and generating less waste. The key goals of green building are to efficiently use energy, water and other resources; improve occupant health; and reduce pollution and degradation. Some benefits include reduced operating costs, improved productivity, and protection of natural environments and human health. While green buildings have advantages, there can also be challenges like higher initial costs, longer construction timelines, and ensuring proper indoor air quality.
International Conference on NLP, Artificial Intelligence, Machine Learning an...gerogepatton
International Conference on NLP, Artificial Intelligence, Machine Learning and Applications (NLAIM 2024) offers a premier global platform for exchanging insights and findings in the theory, methodology, and applications of NLP, Artificial Intelligence, Machine Learning, and their applications. The conference seeks substantial contributions across all key domains of NLP, Artificial Intelligence, Machine Learning, and their practical applications, aiming to foster both theoretical advancements and real-world implementations. With a focus on facilitating collaboration between researchers and practitioners from academia and industry, the conference serves as a nexus for sharing the latest developments in the field.
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapte...University of Maribor
Slides from talk presenting:
Aleš Zamuda: Presentation of IEEE Slovenia CIS (Computational Intelligence Society) Chapter and Networking.
Presentation at IcETRAN 2024 session:
"Inter-Society Networking Panel GRSS/MTT-S/CIS
Panel Session: Promoting Connection and Cooperation"
IEEE Slovenia GRSS
IEEE Serbia and Montenegro MTT-S
IEEE Slovenia CIS
11TH INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC AND COMPUTING ENGINEERING
3-6 June 2024, Niš, Serbia
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
Literature Review Basics and Understanding Reference Management.pptxDr Ramhari Poudyal
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
Electric vehicle and photovoltaic advanced roles in enhancing the financial p...IJECEIAES
Climate change's impact on the planet forced the United Nations and governments to promote green energies and electric transportation. The deployments of photovoltaic (PV) and electric vehicle (EV) systems gained stronger momentum due to their numerous advantages over fossil fuel types. The advantages go beyond sustainability to reach financial support and stability. The work in this paper introduces the hybrid system between PV and EV to support industrial and commercial plants. This paper covers the theoretical framework of the proposed hybrid system including the required equation to complete the cost analysis when PV and EV are present. In addition, the proposed design diagram which sets the priorities and requirements of the system is presented. The proposed approach allows setup to advance their power stability, especially during power outages. The presented information supports researchers and plant owners to complete the necessary analysis while promoting the deployment of clean energy. The result of a case study that represents a dairy milk farmer supports the theoretical works and highlights its advanced benefits to existing plants. The short return on investment of the proposed approach supports the paper's novelty approach for the sustainable electrical system. In addition, the proposed system allows for an isolated power setup without the need for a transmission line which enhances the safety of the electrical network
2. Page 2
Introduction
now recognizes the importance of nature
and the need to preserve the world began
was adopted this principle in many of the
areas may be the most important of the
design and construction of buildings.
green building : is considered a green
building complete system of measures and
solutions that apply to building facilities or
real estate project in reduce energy
expenses, waste, and turn it into useful
elements of the environment and the
building and its occupants
3. Page 3
Objectives Of Green Building
1- low impact
minimize impact on natural environment
2- energy efficient
reduced energy usage and water usage
3- healthy
product occupant health and increase productivity
4- minimize waste
designed and constructed in a manner that
minimizes waste, pollution and environmental
degradation
6. Page 6
Green Roof
the cultivation surfaces of technology
that provides a wide range of benefits
tangible and intangible communities
interested in improving and
strengthening the good environment.
systems used for the cultivation of the
roofs of the buildings must be light
weight system that does not cause
excessive load on the building, as well
as the must leaks of water from the
system to the roof of the building does
not happen until the building is
maintained well for a long time.
7. Page 7
Classification of green roof
green roofs possible to be intense or
low-density on a large scale. bishop
intensive be thicker (more than 15
cm deep), a thickness that allows for
the growth of a variety of plants,
trees and shrubs. but heavy on the
surface and more expensive, and
require more maintenance and
irrigation.
8. Page 8
the other type covers a light
layer of vegetation and with
a thickness of less than 15
cm. it is dedicated to herbs
and shrubs that do not
require deep into the soil for
growth.
9. Page 9
Benefits Of Green Building
1- they are working on the organization of the
building temperature, where upon heated during
the winter and cool it during the summer.
2- contributes to reduce the rain water leaked from
the surfaces, because they function as a sponge
absorbing water and at the same time the plants
benefit from this water.
3-reduce pollution where works as a filter to purify
the air.
10. Page 10
4- reducing the noise, which is one of the problems
of the modern era, especially in the cities.
5- green bishop many economic benefits they
increase the life of the buildings where they work
thermal insulation block them from the sun roofs of
buildings and reduce air conditioning costs in the
summer and heating during the winter
11. Page 11
Building Materials Environmentally Friendly:
building environmentally friendly materials should where
available two conditions two grounds:
1 - not be a material of high energy consumption, both in
the manufacturing phase or installation or even
maintenance
2. not contribute to the increase of internal contamination
of the building that you doubt any of a group of building
materials (and finishes), called the correct building
materials and are often natural building materials.
13. Page 13
The fact for cement
scientifically proven that the production of
one ton of cement is accompanied by
emission of one ton - 2 tons of gas (co2),
and that 99% of the gas formed by limestone
and clinker cement and burning fuel heating
to heat the material, the greater the degree
of heating temperature of clinker cement, the
less the factory production and increased
greenhouse gas (co2) and increased global
warming and increased environmental
damage to the factory and increased the
proportion of respiratory diseases such as
asthma and pulmonary ossification and lung
cancer, kidney failure and other serious
diseases.
14. Page 14
Green Cement Eco-frindley
Cement
Portland pozzolan cement
bolzano renewable natural arising
from the ashes of volcanoes Bolzano
arising from industrial waste recycling
plants such as (fly ash) coal ash
residues resulting from the burning of
coal for power plants or the production
of iron slag resulting from the
remnants of iron factories.
15. Page 15
WHY ADDITION OF POZZOLAN CEMENT
CLINKER?
- to help increase the production of the factory
-provides energy and heat and electricity for the plant and
-reduces greenhouse gas (co2) and reduces global
warming by 20%.
-reducing environmental pollution, noise and reduce lung
cancer
- ossification pulmonary disease, asthma and kidney
failure by 20%
-will improve concrete quality and increasing concrete
interaction rubble of alkali resistance (alkali-silica reaction)
and thermal cracks.
16. Page 16
-as it reduces the reaction temperature as well as
the material silica in bolzano natural or industrial
constantly interact with free radicals to hydroxide
where calcium increases the composition of the
concrete association (csh), which increases the
strength and cohesion of concrete particles
reduces the porosity and permeability and thus
increases the resistance of the building to get free
of salts or acids
17. Page 17
Percentage of pozzolan we add cement to not more
than 30%
We can use it 100%, but in this case you must use
additives Chemical faster than interaction
18. Page 18
water conservation methods inside buildings:
some may believe that the only water used in buildings for
drinking operations and bathing or cooking food, but water is
also used to irrigate home gardens and beautify the building
operations and moistened by fountains and water ponds or
waterfalls, or even in swimming pools.
the process of re-use of wastewater and the so-called water-
gray grey water which is resulting from the use of bathrooms
and showers and kitchens have a significant impact in reducing
water consumption of buildings, where they are assembled into
a cistern and are processed and filtered using sand and gravel
and biological filters then reused to irrigate gardens or used
again in the package boxes.
20. Page 20
Lighting And Building:
the sun is the primary source of natural light on
the globe, and the light is spread in the form of
electromagnetic waves, and to get to know the
importance of the amount of lighting to human
life, the dr. sheard confirms that the vision
process consumes a quarter of total energy
necessary for the body in the case of health
lighting and proper consideration, and that any
deficiency in this lighting means drain energy
from the body to compensate for this deficiency,
and it can provide indoor lighting in two
fundamental ways: first by the coming of the sun
and natural lighting, and the second by industrial
lighting.
21. Page 21
For Natural Lighting Inside The Buildings:
the good design of the building must include the
following:
1 - to have two windows to each room as much as
possible distribution on two walls so as to avoid the
phenomenon of dizziness.
2 - distribution of windows and choose places to get as
much of the natural light and the reflected especially
with trying to avoid direct light.
3. the allocation of some open spaces (windows for
example) the building permit for a person to take
advantage of uv taking into account the privacy factor.
22. Page 22
For industrial lighting inside the building:
it is used in two cases: the first when the natural
lighting is insufficient in remote parts from
windows, and the second when the sun goes down
and it is dark. and taken into account in the
selection of units and industrial lighting to give the
kind of lighting that are as close as possible to
natural light.
23. Page 23
provide electrical energy consumption use the
solar cells pv cells
it produces electricity directly from the sun light
falling on them in a way clean non-polluting or
negatively affecting the environment, and
unobtrusive and without any space occupancy
within the building, plus they need a little
maintenance, since they contain no moving
parts, and can be installed and used without
hindrance, a mainly made of silicon material
(sand) material which is available on a large
scale, their use does not lead to damage to the
environment, and because the cells grouped in
units it is fast to install,
24. Page 24
and can increase the number and the fast expansion, as well
as generate electricity of pv modules in the place of use so
there is no significant loss of electricity as a result of delivery.
these cells are collected under the insulating layer (usually
glass) to configure panel photovoltaic panel pv to get a larger
amount of energy.
27. Page 27
As well as the use of solar cells to provide water
heater
28. Page 28
Cost And Returns
most criticism on the construction of green buildings is the
issue price. solar cells, new devices, new technologies tend
to cost more money. most green buildings cost a premium
of <2%, but yield 10 times as much over the full life of a
normal building (without environmental technologies).
savings in money come from more efficient use of public
facilities, which lead to lower energy bills is expected that
various sectors
29. Page 29
Conclusion
conclude that green buildings lead to the provision of
electrical energy consumption in general and the energy used
for cooling, lighting, water heating, in particular, in addition to
the rationalization of water consumption, thereby reducing the
emission of carbonates and improves the quality of interior air
environment at home, thereby improving the health of the
community and increase the life span of the buildings and the
preservation of the ecosystem, which leads in the end to
raise productivity and boost the economy in various sectors