#EcoMonday Contemporary Mediterranean Home With a “Breathing” Eco-Façade

Posted: March 24, 2013 | Author: | Filed under: Architecture, Green, More FC3, Uncategorized | Tags: , , , , , , , , , | Leave a comment »

Breathing House 14

Excerpt from “Freshhomes Design & Architecture”: Travessa de Patrocinio is one of those bohemian places in Lisbon that require a sweet disposition while visiting. The unique collaboration between these three designers, Luís Rebelo de AndradeTiago Rebelo de Andrade and Manuel Cachão Tojal, gave birth to a project inspired by minimalism, with an interesting Mediterranean “coverage”. Imagine a thick “coat” of plants shadowing the entire façade of a house that spreads vertically. “Its walls are completely covered with vegetation, creating a vertical garden, filled with around 4500 plants from 25 different Iberian and Mediterranean varieties which occupies 100 square meters. So, short levels of water consumption are guaranteed as well as little gardening challenges.”  Click here to read the rest of the story.

Breathing House 00

Breathing House 0

Excerpt from Architizer News: The House in Travessa do Patrocínio by RA\\ ( Luís Rebelo de Andrade, Tiago Rebelo de Andrade, Manuel Cachão Tojal) does just that. The narrow townhouse is situated smack dab in Lisbon, in a neighborhood with little access to green spaces. To compensate for this lack, the architects draped the house with lush green facades that cover 100 square-meters of wall space. But this isn’t your run-of-the-mill green building accessory. The facades are integral components to the architecture, not just tacked on for a higher LEED score. They’re planted with approximately 4,500 plants sourced from 25 different local varieties, which  all require little maintenance. The result is a vertical garden that the architects say functions as an urban “lung” within the pavement-heavy area, helping to rid the residential street of excess noise, carbon, and other pollutants floating about. Click here to read the rest of the story.
 Breathing House 13

Breathing House 16 Breathing House 15 Breathing House 13 Breathing House 12 Breathing House 11 Breathing House 10 Breathing House 09 Breathing House 08 Breathing House 07    Breathing House 03 Breathing House 02 Breathing House 01

A Brief History of Green Walls

The concept of green walls is an ancient one, with examples in architectural history
reaching back to the Babylonians – with the famous Hanging Gardens of Babylon, one
of the seven ancient wonders of the world. Highlights of the history of green walls are
provided below:

  • 3rd C. BCE to 17th C. AD: Throughout the Mediterranean, Romans train grape vines (Vitis species) on garden trellises and on villa walls. Manors and castles with climbing roses are symbols of secret gardens.
  • 1920s: The British and North American garden city movement promote the integration of house and garden through features such as pergolas, trellis structures and self-clinging climbing plants.
  • 1988: Introduction of a stainless steel cable system for green facades.
  • Early 1990s: Cable and wire-rope net systems and modular trellis panel systems enter the North American marketplace.
  • 1993: First major application of a trellis panel system at Universal CityWalk in California.
  • 1994: Indoor living wall with bio-filtration system installed in Canada Life Building in Toronto, Canada.
  • 2002: The MFO Park, a multi-tiered 300’ long and 50’ high park structure opened in Zurich, Switzerland. The project featured over 1,300 climbing plants.
  • 2005: The Japanese federal government sponsored a massive Bio Lung exhibit, the centerpiece of Expo 2005 in Aichi, Japan. The wall is comprised of 30 different modular green wall systems available in Japan.
  • 2007: Seattle implements the Green Factor, which includes green walls.
  • 2007: GRHC launches full day Green Wall Design 101 course; the first on the subject in North America.
  • 2008: GRHC launches Green Wall Award of Excellence and Green Wall Research Fund.

Source: GreenScreen

Biofiltration

An ‘active’ living wall is intended to be integrated into a building’s infrastructure and designed to biofilter indoor air and provide thermal regulation. It is a hydroponic system fed by nutrient rich water which is re-circulated from a manifold, located at the top of the wall, and collected in a gutter at the bottom of the fabric wall system. Plant roots are sandwiched between two layers of synthetic fabric that support microbes and a dense root mass. These root microbes remove airborne volatile organic compounds (VOCs), while foliage absorbs carbon monoxide and dioxide. The plants’ natural processes produce cool fresh air that is drawn through the system by a fan and then distributed throughout the building. A variation of this concept could be applied to green facade systems as well, and there is potential to apply a hybrid of systems at a large scale.

Source: GreenScreen

Public Benefits of Green Walls

Breathing House 101b

Source: GreenScreen

Private Benefits of Green Walls

Breathing House 101a

Source: GreenScreen

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What is the Eden Project?

Posted: October 21, 2012 | Author: | Filed under: Architecture, Green | Tags: , , , , , , , , , , | Leave a comment »

The Eden Project – The world’s largest man-made complex of greenhouses in Cornwall, United Kingdom, inspired by Buckminster Fuller’s geodesic dome design.

The world’s largest man-made complex of greenhouses in Cornwall, United Kingdom.

Total surface  39.540 m2
Total steel  weight 700 tons
Total length  off all beams 36000 m
Steel weight per surface less than 24 kg/m2
Biggest hexagon area 80 m2 at a span of 11 m
Biggest dome diameter (dome B) 125 m
Column free area 15590 m2 WTB and 6540 m2 for HTB

Official website: Click Here 

Grimshaw Architects’ Site: Click Here

Video (bottom of webpage): Click Here

The Eden Project is a visitor attraction in Cornwall in the United Kingdom, including the world’s largest greenhouse.  Inside the artificial biomes are plants that are collected from all around the world. The project is located in a reclaimed Kaolinite pit, located 1.25 mi (2 kilometres) from the town of St Blazey and 5 kilometres (3 mi) from the larger town of St AustellCornwall.

The complex is dominated by two huge enclosures consisting of adjoining domes that house thousands of plant species, and each enclosure emulates a naturalbiome. The domes consist of hundreds of hexagonal and pentagonal, inflated, plastic cells supported by steel frames. The first dome emulates a tropicalenvironment, and the second a Mediterranean environment.

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e-mail: fcunha@fc3arch.com
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“Green” Glass is Good @CorningMuseum

Posted: October 9, 2012 | Author: | Filed under: Architecture, Green, JustArch, More FC3 | Tags: , , , , , , | 4 Comments »

The New York City practice Thomas Phifer and Partners have unveiled their design for the new 100,000 square foot North Wing expansion at the Corning Museum of Glass in Corning, New York. The state of the art, “energy smart” building will provide the ideal interior environment for preserving the Museum’s unparalleled collection of glass art through natural lighting, an intelligent building envelope and sophisticated temperature and air quality controls. The $64 million North Wing is scheduled for completion in 2014.

Included in the expansion will be a 26,000 square feet of gallery space. This is the largest space anywhere dedicated to the presentation of contemporary art in glass.

Environmentally Sustainable Design Elements:

  • Insulated double glazed windows with high performance, low-E coating to reduce heat gain
  • Daytime illumination provided by natural light
  • Daylight harvesting system
  • Carbon dioxide monitors control volume of outside air intake
  • Enthalpy wheel recovers heat from building exhaust
  • VAV controls track occupancy and system performance to reduce energy consumption
  • Water economizer uses cooling towers instead of chillers to produce cooling in winter for pumps
  • Multiple valves on cooling coils reduce energy required for dehumidification
  • Commissioning of building systems maximizes equipment efficiency
  • Facility personnel training improves long-term maintenance and operation
  • Design of storm water retention reduces run-off and erosion
  • Site lighting is designed to meet Dark Sky standards

Click here to read more about this exciting project!

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e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
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Exclusive #EcoMonday Interview with Architect Bill Reed with host @FrankCunhaIII (Part 1 of 3)

Posted: May 27, 2012 | Author: | Filed under: Architecture, Green, PodCasts | Tags: , , , , , , , , , | Leave a comment »

CLICK HERE

FOR PART THREE OF THREE OF OUR

INTERVIEW WITH BILL REED

Happy EcoMonday!!!

Bill Reed

For more Green stories please click here.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
web: http://fc3arch.com
Licensed in NJ, NY, PA, DE, CT.

Exclusive #EcoMonday Interview with Architect Bill Reed with host @FrankCunhaIII (Part 2 of 3)

Posted: May 21, 2012 | Author: | Filed under: Architecture, Green, PodCasts | Tags: , , , , , , , , , | Leave a comment »

CLICK HERE

FOR PART TWO OF THREE OF OUR

INTERVIEW WITH BILL REED

Happy EcoMonday!!!

Bill Reed

For more Green stories please click here.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
web: http://fc3arch.com
Licensed in NJ, NY, PA, DE, CT.

 

Exclusive #EcoMonday Interview with Architect Bill Reed with host @FrankCunhaIII (Part 3 of 3)

Posted: May 13, 2012 | Author: | Filed under: Architecture, Green, PodCasts | Tags: , , , , , , , , , | 2 Comments »

CLICK HERE

FOR PART ONE OF THREE OF OUR

INTERVIEW WITH BILL REED

Happy EcoMonday!!!

William G. Reed, AIA, LEED

Integrative Design Collaborative
20 Woodland Street
Arlington, MA 02476
781 483 3040
e-mail: reed@integrativedesign.net
web: www.integrativedesign.net

Regenesis
320 Aztec Street
Santa Fe, NM 87501
505 986 8338
e-mail: bill@regenesisgroup.com
web: www.regenesisgroup.com
An internationally recognized proponent and practitioner in sustainability and regeneration Bill is a principal in three firms, the Integrative Design Collaborative, Regenesis, Inc., and Delving Deeper – green building consulting, living system design, and education organizations working to lift building and community planning into full integration and co-evolution with living systems. His work centers on creating the framework for and managing an integrative, whole-systems design process. The objective: to improve the overall quality of the physical, social and spiritual life of our living places and therefore the planet.Relevant background:

  • Founding Board Member of the US Green Building Council
  • Co-chair of the LEED Technical Committee from its inception in 1994 through 2003
  • Co-author with the Seven Group: The Integrative Design Guide to Green Building: redefining the practice of sustainability
  • Served on the national executive committee of the AIA Committee On The Environment
  • Former Chair of the ANSI Committee on Whole System Integration
  • Served as a NESEA Board member
  • Former and original LEED Faculty
  • Advisory Board – Environmental Building News
  • Board Member of A.W.E, Inc. San Francisco and Ecological, Inc. NYC

Bill is a planning consultant, design process facilitator, lecturer, and author. He has participated in over 300 presentations and workshops relating to Sustainable, Regenerative and Whole System Design. He has consulted on over two hundred green design commissions and dozens of LEED projects – achieving many certifications – the majority Gold and Platinum. He is a guest lecturer at Universities from Harvard and MIT to the University of British Columbia. His clients range from New York City Department of Design and Construction, U.S. General Services Administration, Loreto Bay, Baja, Mexico, Sidwell Friends School, US Green Building Council, Genzyme Corporation, Teknion, LLC, the Willow School, the Emirate of Abu Dhabi, various city planning agencies on the East and West coast, and many private development companies in the US, Canada, and Mexico.

We would love to hear from you on what you think about this post. We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
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Licensed in NJ, NY, PA, DE, CT.

#EcoMonday @WJMArchitect Recognized for Green Architecture and Design

Posted: August 15, 2011 | Author: | Filed under: Green, More FC3 | Tags: , , , , , , , , | 4 Comments »

William Martin of Westwood received an award for his work on a Hillsdale home for a wounded soldier.

By Michelle Sartor

Westwood resident William Martin, who has been working as an independent architect since 1991, recently won an award for a sustainable home design he created for a wounded soldier.

The American Institute of Architects New Jersey Committee on the Environment (COTE) held its first competition this year to reward architects for outstanding sustainable designs. Martin submitted his project in the residential category and was named the winner in the COTE Top 10 Awards.

The design is for a home in Hillsdale that Martin did in conjunction with Homes For Our Troops. Wounded Iraq War Marine Corp. Cpl. Visnu Gonzalez lives in the home with his mother, Maria.

The home, which was constructed in 2009, has several green elements. It is LEED (Leadership in Energy and Environmental Design) Platinum Certified and is partially self-sustaining by creating its own renewable energy. The house has solar panels, geothermal heating and air conditioning, LED lighting and a mechanism for rain water capture and re-use.

Martin appeared on NBC News with Brian Williams for his efforts on the home. Click here to see the segment.

Click here to read the rest of the story.

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We would love to hear from you on what you think about this post. We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
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#EcoMonday @FC3ARCHITECTURE – Going Green? We Can help!

Posted: August 7, 2011 | Author: | Filed under: Green, My Firm | Tags: , , , , , , , , , , , , , , , , | 4 Comments »

Most, if not all, of our design and construction projects have had green components over the past 15 years.  Not sure where to start?  Give us a call at (201) 681-3551 or email us.

Going Green? We Can Help!

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We would love to hear from you on what you think about this post. We sincerely appreciate all your comments.

If you like this post please share it with friends. And feel free to contact us if you would like to discuss ideas for your next project!

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
web: http://fc3arch.com
Licensed in NJ, NY, PA, DE, CT.

Surf’s Up! #EcoMonday Renewable Clean Wave Power Energy

Posted: August 5, 2011 | Author: | Filed under: Green | Tags: , , , , , | 2 Comments »

When I read about Scotland’s wave power in this week’s Newsweek I was excited but disappointed.  Disappointed because the USA is not leading the initiative on wave power.

Pelamis on site at EMEC, the planned location for Scotland’s first wave farm.

Various systems are under development at present aimed at harnessing the enormous potential available for wave power off Scotland’s coasts. Pelamis Wave Power (previously Ocean Power Delivery) are an Edinburgh-based company whose Pelamis system has been tested off Orkney and Portugal. These devices are 150 metres (492 ft) long, 3.5 metres (11.5 ft) diameter floating tubes which capture the mechanical action of the waves. Future wave farm projects could involve an arrangement of interlinked 750 kW machines connected to shore by a subsea transmission cable.

Another approach is used by the LIMPET 500 (Land Installed Marine Power Energy Transformer) energy converter installed on the island of Islay by Wavegen Ltd. It is a shore-based unit and generates power when waves run up the beach, creating pressure inside an inclined oscillating water column. This in turn creates pneumatic power which drives twin 250 kW the generators. Islay LIMPET was opened in 2001 and is the world’s first commercial scale wave-energy device. The manufacturers are now developing a larger system in the Faroe Islands.

Funding for the UK’s first wave farm was announced by the Scottish Executive on 22 February 2007. It will be the world’s largest, with a capacity of 3 MW generated by four Pelamis machines at a cost of over 4 million pounds. The funding is part of a new £13 million funding package for marine power projects in Scotland that will also support developments to Aquamarine’s Oyster and Ocean Power Technology’s PowerBuoy wave systems, AWS Ocean Energy’s sub-sea wave devices, ScotRenewables’ 1.2 MW floating rotor device, Cleantechcom’s tidal surge plans for the Churchill barriers between various Orkney islands, the Open Hydro tidal ring turbines, and further developments to the Wavegen system proposed for Lewis as well as a further £2.5 million for the European Marine Energy Centre (EMEC) based in Orkney. This is a new Scottish Executive-backed research facility that has installed a wave testing system at Billia Croo on the Orkney mainland and a tidal power testing station on the nearby island of Eday. At the official opening of the Eday project the site was described as “the first of its kind in the world set up to provide developers of wave and tidal energy devices with a purpose-built performance testing facility.”

The Siadar Wave Energy Project was announced in 2009. This 4 MW system was planned by npower Renewables and Wavegen for a site 400 metres off the shore of Siadar Bay, inLewis. However in July 2011 holding company RWE announced they were withdrawing from the scheme, and Wavegen are seeking new partners. In early 2010 two areas were identified for substantial offshore wind development, in the Moray Firth basin and outer Firth of Forth. Shortly afterwards the Government earmarked eleven sites they expected to benefit from the construction of up to 8,000 offshore turbines by 2020. These included Campbeltown and Hunterston, four sites previously used for offshore oil fabrication atArdersierNigg BayArnish and Kishorn and five east coast locations from Peterhead to Leith. In May 2010 the “Vagr Atferd P2″ Pelamis 750 kW system was launched for testing by EMEC. The device weighs 1500 tonnes and is 180 metres long.

Pelamis Wave Power

Pelamis Wave Power Ltd is the manufacturer of a unique system to generate renewable electricity from ocean waves. For energy companies, utilities and their customers, Pelamis machines offer the ability to unlock an immense clean energy resource with great potential. To see the Pelamis in actionclick here.

The Technology

The Pelamis Wave Energy Converter is the result of many years of engineering development by PWP. It was the world’s first commercial scale machine to generate electricity to the grid from offshore wave energy and the first to be used commercially. For details about how the Pelamis works and to read about our new P2 device, click here. For details of recent machine operations and testing, click here.

Wave Energy

Offshore wave energy has the potential to be one of the most environmentally benign forms of electricity generation. The wave energy around the British Isles has been estimated to be equivalent to three times current UK electricity demand, with the potential to convert a sizeable fraction of this wave energy to electricity. Many other areas of the world also present possible opportunities for wave power conversion. To discover what areas could be potential sites for wave technology in future, click here.

Click here to learn more about Pelamis Wave Power.

Sincerely,
Frank Cunha III
I Love My Architect – Facebook

FC3 ARCHITECTURE+DESIGN, LLC
P.O. Box 335, Hamburg, NJ 07419
e-mail: fcunha@fc3arch.com
mobile: 201.681.3551
direct: 973.970.3551
fax: 973.718.4641
web: http://fc3arch.com
Licensed in NJ, NY, PA, DE, CT.

Team New Jersey To Make Precast Concrete Solar House Reality

Posted: July 25, 2011 | Author: | Filed under: Architecture, Green, JustArch | Tags: , , , , , , , , , , , , , , , , , , | 1 Comment »

NEWARK, Jul 12 2011 - Construction of ENJOY: A Generation House, the U.S. Department of Energy Solar Decathlon 2011 entry from Team New Jersey, a collaborative effort of Rutgers, The State University of New Jersey and New Jersey Institute of Technology (NJIT), begins July 11, 2011 following a ground-breaking at NJIT.  Once construction of the house is complete, Team NJ will hold an official topping-off event at NJIT with major sponsors and VIP guests. Work will continue at NJIT throughout the summer with the students performing tests to ensure all systems work properly.   

In September, the house will be de-constructed, loaded onto trucks, and shipped to the competition site on the National Mall in Washington, D.C. Upon arrival, the team will aim for a two-day reconstruction timeline before adding finishing touches. Once completed, the ENJOY House will be ready to accommodate the thousands of visitors who will be touring the house during public display hours from Sept. 23-Oct. 2, 2011.

The ENJOY House is designed around a central core containing integrated systems. It is the first house in the competition’s history to use precast concrete panels as the primary construction material. ENJOY, a beach-inspired house, will feature an inverted-hip roof design for rainwater collection to support irrigation and grey water systems, an 8.2kW photovoltaic system that will allow the house to be completely powered by the sun, and the application of universal design principles, which will allow the house to be accessible to people of all ages and levels of mobility.

An interdisciplinary project, Team NJ is composed of architecture and industrial design students from NJIT’s College of Architecture and Design and engineering, landscape architecture, planning, and computer science students from Rutgers University. Students regularly attend meetings with professionals in the field and take classes that focus on specific aspects of the design, such as a class on green building at Rutgers University, the NJIT Solar Design Studio and System’s Interface Studio, along with several classes offered in the landscape architecture school and engineering school.

Click here to read the rest of the article

Click here to see previous post of Team NJ Solar House Project

The 2030 Challenge for Planning @Arch2030

Posted: July 19, 2011 | Author: | Filed under: Architecture, Green, JustArch | Tags: , , , , , , , , , , , , , , , , , , , , , | 2 Comments »

The built environment is the major source of global demand for energy and materials that produce by-product greenhouse gases (GHG). Planning decisions not only affect building energy consumptions and GHG emissions, but transportation energy consumption and water use as well, both of which have large environmental implications.

In 2008, Architecture 2030 issued The 2030 Challenge for Planning asking the global architecture and planning community to adopt the following targets:

  • All new and renovated developments / neighborhoods / towns / cities / regions immediately adopt and implement a 60% reduction standard below the regional average for fossil-fuel operating energy consumption for new and renovated buildings and infrastructure and a 50% fossil-fuel reduction standard for the embodied energy consumption of materials.
  • The fossil-fuel reduction standard for all new buildings, major renovations, and embodied energy consumption of materials shall be increased to:
    • 70% in 2015
    • 80% in 2020
    • 90% in 2025
    • Carbon-neutral in 2030 (using no fossil fuel GHG emitting energy to operate or construct).
      These targets may be accomplished by implementing innovative sustainable design strategies, generating on-site renewable power and/or purchasing renewable energy (20% maximum).
  • All new and renovated developments / neighborhoods / towns / cities / regions immediately adopt and implement a 50% reduction standard below the regional average for:
    • Vehicle Miles Traveled (VMT) for auto and freight and
    • water consumption.
Seattle 2030 District
White House Challenge’s Partners
Activating the District

Click here for more information on Architecture 2030.

What is The 2030 Challenge? @Arch2030

Posted: July 19, 2011 | Author: | Filed under: Architecture, Green, JustArch | Tags: , , , , , , , , , , , , , , , , , , | Leave a comment »
Architecture 2030, a non-profit, non-partisan and independent organization, was established in response to the climate change crisis by architect Edward Mazria in 2002. 2030’s mission is to rapidly transform the U.S. and global Building Sector from the major contributor of greenhouse gas emissions to a central part of the solution to the climate change, energy consumption, and economic crises. Our goal is straightforward: to achieve a dramatic reduction in the climate-change-causing greenhouse gas (GHG) emissions of the Building Sector by changing the way buildings and developments are planned, designed and constructed.

Buildings are the major source of global demand for energy and materials that produce by-product greenhouse gases (GHG). Slowing the growth rate of GHG emissions and then reversing it is the key to addressing climate change and keeping global average temperature below 2°C above pre-industrial levels.

To accomplish this, Architecture 2030 issued The 2030 Challenge asking the global architecture and building community to adopt the following targets:

    • All new buildings, developments and major renovations shall be designed to meet a fossil fuel, GHG-emitting, energy consumption performance standard of 60% below the regional (or country) average for that building type.
    • At a minimum, an equal amount of existing building area shall be renovated annually to meet a fossil fuel, GHG-emitting, energy consumption performance standard of 60% of the regional (or country) average for that building type.
    • The fossil fuel reduction standard for all new buildings and major renovations shall be increased to:
      • 70% in 2015
      • 80% in 2020
      • 90% in 2025
      • Carbon-neutral in 2030 (using no fossil fuel GHG emitting energy to operate).

These targets may be accomplished by implementing innovative sustainable design strategies, generating on-site renewable power and/or purchasing (20% maximum) renewable energy.

Click here for more information on Architecture 2030.

@RutgersU and @NJIT Compete in 2012 Solar Decathlon

Posted: July 12, 2011 | Author: | Filed under: Architecture, Green, JustArch | Tags: , , , , , , , , , , , , , , , | 2 Comments »

.

NEW BRUNSWICK, N.J. – Rutgers, The State University of New Jersey and the New Jersey Institute of Technology (NJIT) have partnered to compete as “Team New Jersey” in the U.S. Department of Energy Solar Decathlon 2011 competition (led by Richard Garber of GRO Architects, previously featured for his design of a concrete home in Jersey City). Team New Jersey is one of 20 collegiate teams, selected from an international pool of 40 candidates, challenged to design, build, and operate solar-powered houses that are affordable, energy-efficient, and attractive. The winner of the competition is the team that best blends cost-effectiveness, consumer appeal, and design excellence with optimal energy production and maximum efficiency. “The selection of Team New Jersey as a participant in the Solar Decathlon 2011 puts New Jersey squarely on the international ‘green building’ map now,” said Jennifer Senick, Executive Director of the Rutgers Center for Green Building at the Edward J. Bloustein School of Planning and Public Policy, Rutgers University. The Center played a key organizing role in the Solar Decathlon 2011 proposal and will continue this capacity throughout the project. “This is a vote of confidence by the USDOE in New Jersey’s green building activities, and Team New Jersey’s design will showcase innovations that represent the future of green economy.”

For more information about the project or questions regarding fundraising may be directed to Deborah Plotnik at (732) 932-4101 x 626 or dplotnik@rci.rutgers.edu.

Click on the following link to visit the official U.S. Department of Energy site: http://www.solarteamnewjersey.com.

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