AMP is considering retrofit options to make their 7 Macquarie Place building in Circular Quay more sustainable and energy efficient. The report outlines short, medium, and long-term retrofit options such as installing sensors for lighting and taps, replacing toilets with suction flushing systems, adding green walls and rooftop gardens, and eventually overhauling HVAC and insulation. The options aim to reduce the building's electricity, water, and emissions footprint in a cost-effective manner over different timescales. Professional consultation is recommended before implementing any recommendations.
Halim Hani - HHFSD001-The Floating Solar DomeHalim Hani
The document describes a new floating solar dome technique for generating both solar energy and fresh water. The system would involve large glass dome structures floating at sea or on land, containing solar panels and lenses. During the day, the solar panels would generate electricity while the lenses use heat from the sun to boil and desalinate seawater into fresh water below. This technique could provide a sustainable way to continuously produce both energy and fresh water at low cost.
The document provides information about the Nanyang University School of Arts, Design and Media building located in Singapore. It discusses several passive design strategies and sustainable features used in the building's construction including a green roof, rainwater harvesting system, energy efficient elevators and lighting, water saving fixtures, and passive ventilation strategies. Wind and sun path analyses are also included to discuss how the building's design addresses the local climate and solar patterns. The building has received recognition for its sustainable design.
DOCWEB TECHNOLOGIES LTD., is an independent, international solution partner and project management firm in Abuja, and have worked with organizations across boards, assisting with the successful engineering, consultative, procurement, assessments, construction, and implementation of RENEWABLE ENERGY SOLUTION projects such as wind energy system, solar energy system and energy storage system to provide a 24/7 uninterrupted off-grid power supply, giving value for your money with lots of guarantees.
As a business development company, endowed with independent energy services and an energy consulting company registered in Nigeria, we leverage on our partnerships’ Technologies to build quality solutions, operate on a global trend, specializing in providing energy services to both private and public-sector clients. We promote and provide services on Renewable Energy Solutions.
Our MISSION as a solution partnering company is to promote the reduction of carbon emissions and spur economic growth by creating reliable and affordable clean energy solutions. We further aim to ensure an attractive Return on Investment for our clients and strategic partners.
We specialize in assisting public and private sector clients in designing, installing and retrofitting mechanical and electrical equipment, including renewable technologies, and implementing process improvements that use less energy and improve building comfort while at the same time lowering the facility’s operating and maintenance costs.
Sustainability and environmental protection are our priorities. Creating efficient and sustainable renewable energy projects includes intelligent energy storage, especially in areas with unstable grids or remote territories, this has inspired us constantly on our path towards a clean energy future. Our aim is to enable everyone to benefit from cost effective and environmentally friendly renewable power production as an alternative to fossil fuel energy. Our employees and partners are achievers in environmental, economic and social standards. We assume responsibility today – for a clean and sustainable future!
Regards
Caleb Obiajuru
Marketing Consultant
+234 816 445 7372
caleb.obiajuru@gmail.com
The Warwick SRO is a 40,000 square foot, 88-unit housing facility in Newport News, Virginia that provides permanent housing for formerly homeless individuals. It underwent a major renovation to improve energy efficiency and indoor air quality. Upgrades included a new VRF heating and cooling system, ERV ventilation for individual units and common areas, high efficiency water heaters, and Energy Star appliances, fixtures and windows. These improvements reduced annual energy use by 48% and energy costs by $43,000, allowing the owner to reinvest utility savings into resident services programs. The renovated facility provides a healthier and more comfortable living environment for its residents.
Council house 2 sustainable building exampleUET Lahore
Council House 2 (CH2) in Melbourne, Australia is a sustainable office building that achieved a maximum 6 Green Star rating. Some key points:
1) CH2 uses innovative design, renewable materials, and energy efficient technology to reduce its environmental impact and dependence on traditional energy sources.
2) It is expected to reduce electricity consumption by 85%, gas consumption by 87%, and water mains supply by 72% compared to a typical office building.
3) Features contributing to its sustainability include solar panels, a cogeneration plant, low-toxicity materials, and indoor plants.
24 percent of commercial energy end-use is used for lighting purposes, a very big percentage of which is utilized for lighting buildings during the daytime.
Our idea is to use optical fibers to bring concentrated day-light into buildings so that significant savings can be made in electricity cost as well as CO2 emissions.
This presentation was done as part of the assignments for Venture-lab, Technology Ventures 2012 course.
013_20160726_Overview of net zero energy buildings in the USsenicsummerschool
The document provides an overview of net zero energy buildings (NZEB) in the US. It discusses various building energy ratings systems like LEED and Green Globes. It then examines examples of early NZEB projects in Florida and Massachusetts that incorporated high insulation, efficient appliances and HVAC systems, and solar photovoltaics to achieve net zero status. The document concludes with descriptions of two high performance NZEB case studies, one in New Jersey utilizing solar thermal and PV, and another in Vermont using a ground source heat pump and wind power.
Halim Hani - HHFSD001-The Floating Solar DomeHalim Hani
The document describes a new floating solar dome technique for generating both solar energy and fresh water. The system would involve large glass dome structures floating at sea or on land, containing solar panels and lenses. During the day, the solar panels would generate electricity while the lenses use heat from the sun to boil and desalinate seawater into fresh water below. This technique could provide a sustainable way to continuously produce both energy and fresh water at low cost.
The document provides information about the Nanyang University School of Arts, Design and Media building located in Singapore. It discusses several passive design strategies and sustainable features used in the building's construction including a green roof, rainwater harvesting system, energy efficient elevators and lighting, water saving fixtures, and passive ventilation strategies. Wind and sun path analyses are also included to discuss how the building's design addresses the local climate and solar patterns. The building has received recognition for its sustainable design.
DOCWEB TECHNOLOGIES LTD., is an independent, international solution partner and project management firm in Abuja, and have worked with organizations across boards, assisting with the successful engineering, consultative, procurement, assessments, construction, and implementation of RENEWABLE ENERGY SOLUTION projects such as wind energy system, solar energy system and energy storage system to provide a 24/7 uninterrupted off-grid power supply, giving value for your money with lots of guarantees.
As a business development company, endowed with independent energy services and an energy consulting company registered in Nigeria, we leverage on our partnerships’ Technologies to build quality solutions, operate on a global trend, specializing in providing energy services to both private and public-sector clients. We promote and provide services on Renewable Energy Solutions.
Our MISSION as a solution partnering company is to promote the reduction of carbon emissions and spur economic growth by creating reliable and affordable clean energy solutions. We further aim to ensure an attractive Return on Investment for our clients and strategic partners.
We specialize in assisting public and private sector clients in designing, installing and retrofitting mechanical and electrical equipment, including renewable technologies, and implementing process improvements that use less energy and improve building comfort while at the same time lowering the facility’s operating and maintenance costs.
Sustainability and environmental protection are our priorities. Creating efficient and sustainable renewable energy projects includes intelligent energy storage, especially in areas with unstable grids or remote territories, this has inspired us constantly on our path towards a clean energy future. Our aim is to enable everyone to benefit from cost effective and environmentally friendly renewable power production as an alternative to fossil fuel energy. Our employees and partners are achievers in environmental, economic and social standards. We assume responsibility today – for a clean and sustainable future!
Regards
Caleb Obiajuru
Marketing Consultant
+234 816 445 7372
caleb.obiajuru@gmail.com
The Warwick SRO is a 40,000 square foot, 88-unit housing facility in Newport News, Virginia that provides permanent housing for formerly homeless individuals. It underwent a major renovation to improve energy efficiency and indoor air quality. Upgrades included a new VRF heating and cooling system, ERV ventilation for individual units and common areas, high efficiency water heaters, and Energy Star appliances, fixtures and windows. These improvements reduced annual energy use by 48% and energy costs by $43,000, allowing the owner to reinvest utility savings into resident services programs. The renovated facility provides a healthier and more comfortable living environment for its residents.
Council house 2 sustainable building exampleUET Lahore
Council House 2 (CH2) in Melbourne, Australia is a sustainable office building that achieved a maximum 6 Green Star rating. Some key points:
1) CH2 uses innovative design, renewable materials, and energy efficient technology to reduce its environmental impact and dependence on traditional energy sources.
2) It is expected to reduce electricity consumption by 85%, gas consumption by 87%, and water mains supply by 72% compared to a typical office building.
3) Features contributing to its sustainability include solar panels, a cogeneration plant, low-toxicity materials, and indoor plants.
24 percent of commercial energy end-use is used for lighting purposes, a very big percentage of which is utilized for lighting buildings during the daytime.
Our idea is to use optical fibers to bring concentrated day-light into buildings so that significant savings can be made in electricity cost as well as CO2 emissions.
This presentation was done as part of the assignments for Venture-lab, Technology Ventures 2012 course.
013_20160726_Overview of net zero energy buildings in the USsenicsummerschool
The document provides an overview of net zero energy buildings (NZEB) in the US. It discusses various building energy ratings systems like LEED and Green Globes. It then examines examples of early NZEB projects in Florida and Massachusetts that incorporated high insulation, efficient appliances and HVAC systems, and solar photovoltaics to achieve net zero status. The document concludes with descriptions of two high performance NZEB case studies, one in New Jersey utilizing solar thermal and PV, and another in Vermont using a ground source heat pump and wind power.
Set on a 6.5 acre expanse, the campus offers 72 landlots. Every amenity, from water to power to sewerage is taken care of. You can build your own home the way you want with help from BCIL.
The document discusses the sustainable strategies used in the Cloud Forest at Gardens By The Bay in Singapore. It describes how passive design and energy efficient systems are used to cool and maintain the temperature in the massive glasshouse. Specifically, it details the use of double glazed glass, shading systems, displacement ventilation, radiant cooling in walkways, biomass boilers, and on-site power generation to minimize energy usage and create a carbon neutral environment for the plants.
This document discusses net zero energy buildings (NZEBs). It defines NZEBs as buildings that generate as much renewable energy as they consume on an annual basis. It classifies NZEBs based on whether they use on-site or off-site renewable energy sources. Examples of zero energy buildings from around the world are provided, along with design strategies to achieve low and net zero energy performance. Advantages include reduced energy costs and carbon emissions, while disadvantages include higher initial costs and limited experience among designers and builders.
Green one- The first 5 Star Rated SVAGRIHA ProjectNilanjan Bhowal
The document provides details on a residential building project in India that has been designed according to SVAGRIHA green building criteria. It describes the site area and built-up area. It then summarizes the application of each of the 14 criteria, including reducing heat gain through landscaping and passive design, optimizing daylight and artificial lighting, improving building envelope insulation, using renewable energy and energy efficient appliances, reducing water and waste, and encouraging green lifestyles.
This presentation discusses architect-engineer services for the master planning and design of a central utility facility (CUF) over a 10-year development period. It covers net zero energy definitions, case studies of net zero energy buildings including a university lab and air force hangar, strategies for achieving net zero energy through integrated design and renewable energy options, and lessons learned.
Energy Conservation Provisions in BuildingVarun Jain
The document discusses energy conservation and green building practices. It defines energy conservation as decreasing the quantity of energy used through efficient energy use or reduced consumption. It then discusses key aspects of green building like building orientation, envelope materials, landscaping, water management, HVAC, lighting and building management systems. Specific green materials and techniques are mentioned like AAC blocks, fly ash bricks, cavity walls, use of recycled content and locally sourced materials. Green roofing systems like inverted roofs and benefits of vegetated roofs are also covered.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
INDIRA PARYAVARAN BHAVAN- Case study/ Net Zero Energy Building/ Sustainable B...Chandana R
Case study on Indira Paryavaran Bhavan, Jor Bhag, New Delhi.
THIS IS A PROJECT OF MINISTRY OF ENVIRONMENT AND FORESTS FOR CONSTRUCTION OF NEW OFFICE BUILDING AT NEW DELHI.
THE BASIC DESIGN CONCEPT OF THE PROJECT IS TO MAKE THE NET ZERO ENERGY GREEN BUILDING.
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.
TotalEcoEnergy Smart homebuilding solutionsAzi Col
This document provides information on Total Eco Energy Senegal (TEE-Senegal) and their smart home, smart building, and smart city solutions. It describes TEE-Senegal's revolutionary smart grid inverter that manages multiple energy sources, such as solar, batteries, and the grid, to optimize efficiency. The inverter increases the competitiveness of solar energy compared to grid electricity. It also discusses TEE-Senegal's energy concept of combining ecological and economical solutions through their innovative renewable energy production management inverter.
This document provides an introduction to net zero energy buildings (ZEBs). It defines ZEBs as buildings that produce as much energy as they consume on an annual basis. There is no single agreed upon definition, as definitions vary based on priorities and metrics used. The document outlines some key concepts and factors that make a building a ZEB, such as site selection, passive solar design, building envelope, and active energy systems. It also provides a brief history of ZEBs and discusses their benefits. Examples of ZEB projects from Europe and the United States are summarized.
This document summarizes the sustainable features of a building called HAREDA Construction Journey. It has an energy consumption reduction of 72% compared to benchmarks and installed 42.5KW of solar PV. It received a 5-star rating from GRIHA. Sustainable designs include south-facing windows for sunlight, solar chimneys for ventilation, and minimized shadows on neighbors. Water consumption is reduced 70% by efficient fixtures and rainwater harvesting. Energy is reduced through daylighting, solar chimneys, and 42.5KW of solar power installed. Landscaping uses trees and vines to moderate temperatures.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Green Buildings - innovative green technologies and case studiesctlachu
Innovative uses of solar energy : BIPV, Solar Forest, Solar powered street elements,- Innovative materials:
Phase changing materials, Light sensitive glass, Self cleansing glass- Integrated Use of Landscape :
Vertical Landscape, Green Wall, Green Roof. Case studies on Green buildings : CII building,Hyderabad,
Gurgaon Development Centre-Wipro Ltd. Gurgaon; Technopolis, Kolkata; Grundfos Pumps India Pvt Ltd,
Chennai; Olympia Technology Park, Chennai.
The document summarizes several projects in India that have received 5-star ratings from GRIHA, India's green building rating system. Suzlon-One Earth is a renewable energy campus that harvests 100% of rainwater and recycles greywater, with 7% of energy from on-site sources. ZED Earth is a geothermally air-conditioned apartment project with native drought-resistant plants on green roofs. ITC Grand Chola meets 100% of its energy needs through renewables and sources 40% of food locally, recycling 99% of waste. Govardhan Eco Village sources 90% of construction materials within 100 km to reduce its carbon footprint. Infosys Hyderabad campus reduces energy
This document outlines sustainable design features of a historic building renovation project that achieved LEED Gold certification. Key features included a 9.6 kilowatt solar PV system, permeable pavement, a vegetated roof, high-reflectivity roofing, energy efficient HVAC systems, reuse of 75% of existing walls/floors/roof, proximity to public transit, rapidly renewable and recycled materials, daylight harvesting, motion sensor lighting, water conservation fixtures reducing usage by 40%, and green cleaning products. In total, these sustainability measures earned the project over 50 LEED points across various categories.
Zero-energy buildings aim to consume no net energy annually by using renewable energy sources like solar panels. Such buildings are important to address rising energy costs and environmental issues. The presented document discusses the concepts of zero-energy buildings, including how they can be achieved through passive design techniques like phase change material walls, heat recovery ventilators, green roofs, and solar panels. It provides an example of India's first zero-energy building, the Indira Paryavaran Bhavan in New Delhi, which uses solar passive design and a 930kw solar system. The document emphasizes that zero-energy buildings are the future as renewable technologies advance.
Energy Efficiency and Sustainability: Safaricom PerspectiveACX
This document discusses Safaricom's perspective on energy efficiency and sustainability. It aims to reduce costs and carbon footprint by optimizing energy usage. Currently electricity is the highest expense, with diesel also a major cost. Various energy projects have been implemented, including aggressive grid connection, solar installation, low voltage backup systems, power cubes, free cooling systems, and smart controllers. These have significantly reduced generator run times and diesel usage at sites. Safaricom's goal is a reliable network with lower environmental impact through innovative energy solutions.
Edward Cockman has over 18 years of experience in operations management at JSW Steel, including roles as Shift Supervisor and various operator positions. He has a proven track record of implementing process improvements that increase productivity and safety. Cockman holds several certifications and is skilled in strategic planning, production scheduling, process development, and problem solving.
Set on a 6.5 acre expanse, the campus offers 72 landlots. Every amenity, from water to power to sewerage is taken care of. You can build your own home the way you want with help from BCIL.
The document discusses the sustainable strategies used in the Cloud Forest at Gardens By The Bay in Singapore. It describes how passive design and energy efficient systems are used to cool and maintain the temperature in the massive glasshouse. Specifically, it details the use of double glazed glass, shading systems, displacement ventilation, radiant cooling in walkways, biomass boilers, and on-site power generation to minimize energy usage and create a carbon neutral environment for the plants.
This document discusses net zero energy buildings (NZEBs). It defines NZEBs as buildings that generate as much renewable energy as they consume on an annual basis. It classifies NZEBs based on whether they use on-site or off-site renewable energy sources. Examples of zero energy buildings from around the world are provided, along with design strategies to achieve low and net zero energy performance. Advantages include reduced energy costs and carbon emissions, while disadvantages include higher initial costs and limited experience among designers and builders.
Green one- The first 5 Star Rated SVAGRIHA ProjectNilanjan Bhowal
The document provides details on a residential building project in India that has been designed according to SVAGRIHA green building criteria. It describes the site area and built-up area. It then summarizes the application of each of the 14 criteria, including reducing heat gain through landscaping and passive design, optimizing daylight and artificial lighting, improving building envelope insulation, using renewable energy and energy efficient appliances, reducing water and waste, and encouraging green lifestyles.
This presentation discusses architect-engineer services for the master planning and design of a central utility facility (CUF) over a 10-year development period. It covers net zero energy definitions, case studies of net zero energy buildings including a university lab and air force hangar, strategies for achieving net zero energy through integrated design and renewable energy options, and lessons learned.
Energy Conservation Provisions in BuildingVarun Jain
The document discusses energy conservation and green building practices. It defines energy conservation as decreasing the quantity of energy used through efficient energy use or reduced consumption. It then discusses key aspects of green building like building orientation, envelope materials, landscaping, water management, HVAC, lighting and building management systems. Specific green materials and techniques are mentioned like AAC blocks, fly ash bricks, cavity walls, use of recycled content and locally sourced materials. Green roofing systems like inverted roofs and benefits of vegetated roofs are also covered.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
INDIRA PARYAVARAN BHAVAN- Case study/ Net Zero Energy Building/ Sustainable B...Chandana R
Case study on Indira Paryavaran Bhavan, Jor Bhag, New Delhi.
THIS IS A PROJECT OF MINISTRY OF ENVIRONMENT AND FORESTS FOR CONSTRUCTION OF NEW OFFICE BUILDING AT NEW DELHI.
THE BASIC DESIGN CONCEPT OF THE PROJECT IS TO MAKE THE NET ZERO ENERGY GREEN BUILDING.
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.
TotalEcoEnergy Smart homebuilding solutionsAzi Col
This document provides information on Total Eco Energy Senegal (TEE-Senegal) and their smart home, smart building, and smart city solutions. It describes TEE-Senegal's revolutionary smart grid inverter that manages multiple energy sources, such as solar, batteries, and the grid, to optimize efficiency. The inverter increases the competitiveness of solar energy compared to grid electricity. It also discusses TEE-Senegal's energy concept of combining ecological and economical solutions through their innovative renewable energy production management inverter.
This document provides an introduction to net zero energy buildings (ZEBs). It defines ZEBs as buildings that produce as much energy as they consume on an annual basis. There is no single agreed upon definition, as definitions vary based on priorities and metrics used. The document outlines some key concepts and factors that make a building a ZEB, such as site selection, passive solar design, building envelope, and active energy systems. It also provides a brief history of ZEBs and discusses their benefits. Examples of ZEB projects from Europe and the United States are summarized.
This document summarizes the sustainable features of a building called HAREDA Construction Journey. It has an energy consumption reduction of 72% compared to benchmarks and installed 42.5KW of solar PV. It received a 5-star rating from GRIHA. Sustainable designs include south-facing windows for sunlight, solar chimneys for ventilation, and minimized shadows on neighbors. Water consumption is reduced 70% by efficient fixtures and rainwater harvesting. Energy is reduced through daylighting, solar chimneys, and 42.5KW of solar power installed. Landscaping uses trees and vines to moderate temperatures.
Six startups born out of Lawrence Livermore National Laboratory technologies made presentations at a recent entrepreneurial event to attract investors.
The companies -- which have licensed technologies in biotech, renewable energy, sensors, infrared imaging and health care -- showcased their capabilities at the Entrepreneurs-in-Readiness (EIR) event at the Livermore Valley Open Campus' High Performance Computing Innovation Center.
The event was part of an EIR program developed by the Lab's Industrial Partnerships Office (IPO) to connect nascent companies with entrepreneurs and investors. The idea is to engage a diverse group of entrepreneurs and industry experts from Silicon Valley to help nurture promising new early stage Lab technology companies toward commercialization.
ipo.llnl.gov
Green Buildings - innovative green technologies and case studiesctlachu
Innovative uses of solar energy : BIPV, Solar Forest, Solar powered street elements,- Innovative materials:
Phase changing materials, Light sensitive glass, Self cleansing glass- Integrated Use of Landscape :
Vertical Landscape, Green Wall, Green Roof. Case studies on Green buildings : CII building,Hyderabad,
Gurgaon Development Centre-Wipro Ltd. Gurgaon; Technopolis, Kolkata; Grundfos Pumps India Pvt Ltd,
Chennai; Olympia Technology Park, Chennai.
The document summarizes several projects in India that have received 5-star ratings from GRIHA, India's green building rating system. Suzlon-One Earth is a renewable energy campus that harvests 100% of rainwater and recycles greywater, with 7% of energy from on-site sources. ZED Earth is a geothermally air-conditioned apartment project with native drought-resistant plants on green roofs. ITC Grand Chola meets 100% of its energy needs through renewables and sources 40% of food locally, recycling 99% of waste. Govardhan Eco Village sources 90% of construction materials within 100 km to reduce its carbon footprint. Infosys Hyderabad campus reduces energy
This document outlines sustainable design features of a historic building renovation project that achieved LEED Gold certification. Key features included a 9.6 kilowatt solar PV system, permeable pavement, a vegetated roof, high-reflectivity roofing, energy efficient HVAC systems, reuse of 75% of existing walls/floors/roof, proximity to public transit, rapidly renewable and recycled materials, daylight harvesting, motion sensor lighting, water conservation fixtures reducing usage by 40%, and green cleaning products. In total, these sustainability measures earned the project over 50 LEED points across various categories.
Zero-energy buildings aim to consume no net energy annually by using renewable energy sources like solar panels. Such buildings are important to address rising energy costs and environmental issues. The presented document discusses the concepts of zero-energy buildings, including how they can be achieved through passive design techniques like phase change material walls, heat recovery ventilators, green roofs, and solar panels. It provides an example of India's first zero-energy building, the Indira Paryavaran Bhavan in New Delhi, which uses solar passive design and a 930kw solar system. The document emphasizes that zero-energy buildings are the future as renewable technologies advance.
Energy Efficiency and Sustainability: Safaricom PerspectiveACX
This document discusses Safaricom's perspective on energy efficiency and sustainability. It aims to reduce costs and carbon footprint by optimizing energy usage. Currently electricity is the highest expense, with diesel also a major cost. Various energy projects have been implemented, including aggressive grid connection, solar installation, low voltage backup systems, power cubes, free cooling systems, and smart controllers. These have significantly reduced generator run times and diesel usage at sites. Safaricom's goal is a reliable network with lower environmental impact through innovative energy solutions.
Edward Cockman has over 18 years of experience in operations management at JSW Steel, including roles as Shift Supervisor and various operator positions. He has a proven track record of implementing process improvements that increase productivity and safety. Cockman holds several certifications and is skilled in strategic planning, production scheduling, process development, and problem solving.
Madison Shambaugh and her mustang Terk won Reserve Champion at the Virginia Horse Festival's Extreme Mustang Makeover Challenge. Their visually beautiful and technically challenging freestyle performance, performed with no bridle, earned the top score from judges. Shambaugh had trained Terk herself over the past year, bringing out his talents through natural communication and building trust. At the conclusion, Shambaugh was able to adopt Terk rather than having him auctioned off, as she was unwilling to be separated from him.
Nessa amostra anonimizada você poderá encontrar modelos de análises de:
- engajamento de alunos
- raio-x de 120 habilidades do ENEM
- projeção de resultados da escola no ENEM e SISU
This document is a collection of 13 photos from Flickr shared under various Creative Commons licenses. The photos depict a variety of subjects and were uploaded by different photographers. No additional context or commentary is provided.
Mémoire charafa olahanmi Licence Professionnelle en HydrauliqueCharafa Olahanmi
Ce travail est une étude sur la qualité des eaux consommées en milieu rural (eau de surface généralement): cas des vilages de Tanvè et Towéta dans la Commune d'Agbangnizoun
Media Landscape Analysis of Snapchat Discover - NHBuzzFeedJonathan Gordon
Snapchat Discover is a feature within the Snapchat app that allows users to view content from various media publishers. It launched in 2015 with 11 participants and now has over 20 media companies and local stories. Discover content refreshes every 24 hours and attracts 500,000-1 million ad views per day, generating $750,000 in daily ad revenue. BuzzFeed has its own Discover page that simplifies its online content for Snapchat users and forces viewers to see ads. Snapchat Discover has been successful due to appealing to short attention spans, going viral potential, and keeping up with trends.
Kecelakaan Exxon Valdes terjadi karena kelalaian berbagai pihak, termasuk pengemudi tanpa izin, sistem radar usang, dan lemahnya penegakan peraturan. Dampaknya merusak lingkungan dan menuntut Exxon menerapkan prinsip tanggung jawab lingkungan. Perlu pembenahan standar keamanan di semua lini untuk mencegah kejadian serupa.
Sertifikat ini menerangkan bahwa siswa bernama Agung Surya dari SMK Muhammadiyah Juntinyuat telah melaksanakan praktek kerja industri di perusahaan FMC NET selama 2 bulan sejak 1 September hingga 31 Oktober 2015 dengan hasil kompetensi yang baik.
This document provides a summary of recent developments from COSO related to internal control and risk management. It discusses the history and mission of COSO, focusing on its work updating the internal control framework in 2013 and efforts to enhance enterprise risk management. The key points are:
1) COSO was formed in 1985 and its mission is to provide frameworks and guidance on internal control, enterprise risk management, and fraud deterrence.
2) It updated its internal control framework in 2013 to reflect changes in business environments and expanded its focus beyond financial reporting to also cover operations and compliance objectives.
3) COSO has also worked to enhance enterprise risk management through a series of thought papers addressing challenges with implementation and emerging risks.
Rmk bab 7 scott aplikasi perspektif pengukuranarie_aribowo
1. Dokumen tersebut membahas beberapa perspektif dan standar akuntansi terkait pengukuran nilai wajar dalam laporan keuangan, termasuk aset dan liabilitas jangka panjang, instrumen keuangan, dan aset tak berwujud.
It a presentation every youngster of Pakistan must watch and try to achieve the main points of this. I am sure that if our youth follow this then Pakistan will surely get its IQBAL :)
This document provides a case study on the Nanyang University School of Arts, Design and Media in Singapore, which utilizes several innovative passive design strategies to reduce energy and water usage. These include using variable voltage and frequency elevator motors, variable refrigerant flow air conditioning, motion sensors for lighting, dual flush toilets, self-closing taps, wastewater separation treatment, and constructed wetlands. The campus was completed in 2006 and has received recognition for its sustainable design features. Temperature and climate data for Singapore is also presented, showing it has a hot and humid tropical climate without distinct seasons.
GSY Energy is an energy consulting company that provides services related to renewable energy installations like wind, solar, and waste-to-energy. They help clients including municipalities and commercial properties with project development, maintenance, and advisory services. GSY Energy uses a three-phase process for renewable energy projects that reduces risks and expenses through analysis, development, and long-term monitoring.
This document outlines the benefits of going solar through a solar rooftop power plant. India has good solar irradiation and is suitable for solar PV projects across the country. Key benefits include cost savings from negligible operating and maintenance costs and zero fuel costs. Solar panels have a lifetime over 25 years with moderate performance deration. Rooftop areas can be utilized without additional cost. Consumers save on electricity costs starting from day one and contribute to reducing carbon emissions equivalent to planting many trees. The company SUNNIVA Renewables focuses on implementing quality solar projects across India and offers customized solutions for consumers.
This document summarizes a GHG emissions assessment for Viva Tierra's office in Sedro Woolley, Washington. Transportation emissions from employee commuting and business travel were the largest source at 21,867 lbs of CO2. Purchased electricity was the second largest at 10,212 lbs. Other sources included water use at 192 lbs and utilities. Suggestions are made to further reduce emissions from HVAC, appliances, lighting, and encourage carpooling or offsets. The overall assessment finds Viva Tierra has made good progress in reducing emissions through solar panels and efficiency measures.
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1. Mustafa Asrar
Executive Summary:
AMP are considering several retrofit options for their property at 7 Macquarie Place at Circular
Quay. This report consists of options which might be possible for retrofitting of the AMP’s
property; 7 Macquarie Place. AMP aims to make their building more sustainable thus making it
more energy efficient, saving electricity, water, waste which would also result in reducing the
carbon emissions as well, thus making the building more environment friendly. Retrofit options
are divided into short-term, short to medium-term and long-term as well. Some of the retrofit
options that might be suitable for AMP’s property at 7 Macquarie Place are following:
Short-term options (0-2 years):
1. Installing sensors for lighting system
2. Installing sensors for the taps
3. Installing Airblade hand dryers
Short to Medium-term options (1-5 years):
1. Suction flushing system for toilets
2. Plantation (indoor) and green wall on south-west
3. Installation of rain water tanks
Long-term options (5+ years):
1. Reviewing of the air-conditioning system
2. Installing insulation on the external walls
3. Opportunities to add structure to the building
2. Mustafa Asrar
Scope:
This report also consists of the current condition of the building and keeping in view of that the
AMP has been provided with the following range of options which might help to make the
building more sustainable and eco-friendly and also reducing the wastes and costs as well.
Report is created by keeping in view of the short interview with the AMP’s facilities management
team which included Alex. Some assumptions have also been made and outlined as well.
This report is advisory and includes recommendation that are advisory only and AMP is strongly
encouraged and advised that before acting on any of these recommendations, professional
advice and consultation must be completed.
3. Mustafa Asrar
Building
Owner: AMP
Building name: N/A
Location: 7 Macquarie Street Sydney.
The building is situated at the southwestern corner of the Macquarie place and Reiby Place, and
is opposite to the Gateway building and on the other side is the Macquarie Place Park. The
property shares a central position of Sydney and is also close to Circular Quay, which gives a
beautiful view of the Sydney Opera House as well as Sydney Harbor Bridge.
Number of Levels: 1 below ground (Basement) 15 Above ground (Level G-12)
Built: The building was completed in the mid of 1991
Used By: Commercial offices etc.
Lettable Area: Approximately 13500m2
Approx. Use of Energy per annum: 1,163,200 kWh (as per 2015/16 FY)
Approx. Use of water per annum: 7,800kL (as per CY 2015)
Approx. Use of Gas per annum: 193 GJ (as per 2015/16 FY)
Car Park: 23 cars
BMS currently in use: Niagra
Major Tenants: Energy Australia, InterRisk Australia Pty Ltd and Virgin Atlantic
4. Mustafa Asrar
Increasing the sustainability through retrofitting:
Retrofitting is a good option to make a building more sustainable by making it more energy and
water efficient and reducing its waste thus making its carbon emissions also low and making it
eco-friendlier. Making the building sustainable is good option when it is currently in its
construction phase and all the working is done previously, before the project starts. On the other
hand, the costs would be much higher if the building is already constructed and then at a later
stage it is decided to make the building sustainable as that retrofitting at the time would cost a
lot, comparatively.
Building and its current utilities:
Presently the building is using a large amount of electricity and water directly from the grid and
Sydney water. The electricity amounts to approximately 1,163,200 kwh as per 2015/16 which
costs a lot of amount. The water usage of the building is also high which is 7,800kl as per 2015.
The gas usage of the building is approximately 195 GJ per annum.
Retrofit Options for 7 Macquaire Place:
As AMP is considering the retrofit for its property of 7 Macquaire Placeand after the retro fitment
they plan to keep the building until the end of its life. Retrofit options that are provided in this
report include short-term, sort to medium-term and long-term options. These retrofit options
would help to make the building more sustainable which would in turn increase its life as well as
become more energy efficient and decrease the carbon emissions as well. Below are the short-
term, short to medium-term and long-term options available for 7 Macquaire Place.
5. Mustafa Asrar
Retrofit options for short-term (0-2 years)
1. LED lighting system in parking:
Although 7 Macquarie Place has LED lighting systems in the building but it is still using the
fluorescent lights in the parking and some other areas. Replacing these lights with LED
lighting systems can help them reduce the electricity bills as LED lights consume
approximately 50% less electricity than typical fluorescent lights. (Philips, 2016)
Potential costs: Low ($17.95 per tube) (Philips, 2016)
2. Installing sensors for lighting:
Installing the lighting sensors in the building would reduce a lot of energy which is being
wasted, even when it’s not used. As it was observed on the trip to the building,the lighting
was already on when reached the floor we were visiting. The point I’m trying to make is
that ifthe lighting sensors are installed,the lighting would be used just when it is required
and would be turned off automatically. Lighting sensors reduce the costs of lighting by at
least 15% per annum. (Reduction Revolution, 2016)
Potential costs: Low ($29.50) (Reduction Revolution, 2016)
3. Installing sensors for taps:
Typical taps are being used in the building, toilets as well as the kitchens and elsewhere.
These taps can add up to wasting a lot of water if they are not properly closed, which
happens most of the time. Installing sensors to the taps mean that the taps would only
provide water when needed and when there is no need the taps would automatically stop
providing water and nobody would have to close it tightly. It would help save the water
thus making the building more sustainable.
Potential Costs: Low ($76 and above) (Ebay, 2016)
6. Mustafa Asrar
4. Installing Airblade hand dryers in toilets:
Conventional hand dryers are being used in the building’s toilets which consume a lot of
electricity and are un-hygienic as well. Instead of using conventional hand dryers, AMP
can replace them with Airblade hand dryers which prove to be more hygienic and also
consume approximately 69% less electricitythus reducing the electricity costs and carbon
emissions as well. (Dyson, 2016)
Potential Costs: Low-medium ($1,390) (Dyson, 2016)
7. Mustafa Asrar
Retrofitting options for short to medium-term (1-5 years):
1. Suction flushing system for toilets:
The building uses normal flushing systemsin the toilets which can be replaced with the suction
flushing system which is more hygienic and saves a lot of water. This can be done slowly and
graduallyas the old systemstendto create problems,ratherthan fixingthe oldflushesthe AMP
can use the opportunitytoreplacethemwithnewsuctionflushingsystems. Waste watercanalso
be used in the conversion to energy such as waste to methane etc.
Potential Costs: Medium ($1,476.99/each) (Zoxoro, 2016)
2. Plantation and green wall on the south west face of building:
Plantation can be done inside and outside the building as well. Indoor plants can be placed at
specificareasinside the buildingwhichwouldmake the environment(airinside building)cleaner
as well as provide a betteroutlookalso.Also,greenwall can be made on the southwestface of
the buildingasthatside of the building doesn’tprovide anyview.Forexample,the othersidesof
the buildingprovideaviewof the SydneyOperaHouse aswell as SydneyHarborBridge,whichis
quite essential tothe building’slocationsandthusthere’snotmuchyoucandoon the side of the
buildingthatare givingthatspectacularview. Moreover,itcanalsoprovide betterairqualityand
help in cooling the building as well.
Potential Costs: Medium-High ($297 per module) (Atlantis, 2016)
9. Mustafa Asrar
3. Installation of rain water tanks:
Installationof the rainwatertanksonthe roof topcanhelpsave the rainwaterinthose tanksand
then can be used for other purpose such as giving water to rooftop plantation and also to the
greenwall as well,100% of that rain watercan be usedfor thispurpose.Thiswouldthusreduce
the use of water from mains which would result in decreasing the water and electricity bills as
well.
Potential Costs: Medium ($825 and above) (Ebay, 2016)
10. Mustafa Asrar
Retrofitting options for long-term (5+ years):
1. Reviewing of the air-conditioning system:
Although the air-conditioning system of 7 Macquaire Place was upgraded a few years ago, but
still, after sometime reviewing can be done to upgrade more effective and efficient air-
conditioningsystemthatcanhelpsave moreenergyandreduce thecarbonemissionsaswell.The
costs for upgrading to the new air-conditioning system can be high but it can help benefit for
decades.
Potential Costs: High-Very High
2. Installing insulation to existing external wall:
External walls can be filled withcavity insulation through drilling. This is a long-term retrofitting
optionasittakesalotof time andcostsassociatedwithitare alsohigh.The benefitsof thiswould
include cooling down the building and thus reducing the electricity load and bill as well thus
reducing carbon emissions also.
Potential Costs: High-Very High
3. Opportunities to add structure to the building:
This mightinclude addinga fewfloorson the top of the buildingwhichmightserve the purpose
for green roofs etc. Also, it can provide more area to make it feasible for solar paneling as well.
Again, it is a long-term retrofitting option and includes high costs as well.
Potential Costs: High-Very High
11. Mustafa Asrar
Recommendations:
Various options have been provided in this report to AMP, which include short-term, short to
medium-term and long-term options as well. AMP should have a look at these options and might
selectsome of these options for the retro fitment at 7 Macquaire Placeper their budget but AMP
is strongly advised and encouraged to seek professional consultancy before commencing any
work.
Appendix:
Most of the information obtained was directly from the interview question and answer session
at the AMP building when we were visiting.Pricing of the items given in the report may vary from
different websites and quality and quantity of the product as well.
12. Mustafa Asrar
Bibliography
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