I developed this during my internship at NYDesigns and More Than Us in order to present the Embedded Energy Calculator they have been working at and to apply for a grant submission.
2011 Passive House Conference, Synergy Case StudyTE Studio
High-performance is inherently linked to higher first-day cost. Most assume that it only exists at the top of the market. Affordability is often confused with cheap upfront cost. The two present a seemingly irreconcilable conundrum.
TE Studio’s approach defines affordability as something that is financially sustainable over a given period of time. Within this paradigm, first-day costs become a line item on a laundry list of lifecycle cost an owner is typically faced with. The Synergy case study aims to clarify the difference between first-day cost and total cost of ownership, thus redefining affordability and the impact of high-performance design on sustainable and financially viable structures in cold climates (Climate Zone 6).
Synergy is a highly energy efficient, durable and flexible compact home designed as a conversation starter which aims to make high performance accessible to a broad section of owners and developers. Entirely designed without client input and in our free time, Synergy is TE Studio’s testbed for affordability as well as high-performance assemblies and systems. Synergy has not been built but is currently being considered by different entities for projects in 2012.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
Danny Parker discusses his experience retrofitting his home in Cocoa Beach, Florida to achieve near zero net energy use. The home was originally built in 1958 with uninsulated construction and used about 20,000 kWh per year. Parker implemented various energy efficiency upgrades over 20 years like adding insulation, sealing ducts, installing solar panels, and switching to more efficient appliances and lighting. These retrofits reduced the home's energy use by over 99% and it now produces nearly as much energy as it uses through a 4.1 kW solar photovoltaic system. Parker details the costs of the retrofits and the resulting savings on his utility bills. He advocates that others can achieve similar results through incremental efficiency upgrades and on-
Passive House slideshow for Passive House MinnTE Studio
This is an introductory slideshow about the Passive House building energy standard that I gave at the Passive House Minnesota event in Miinneapolis on 2/3/2011.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
Building Intelligence Quotient 2.0 provides a development update on intelligent, or smart, buildings. Intelligent buildings integrate building systems, communications, and controls to provide flexible, effective, comfortable, and secure environments for owners, operators, and occupants. As smart grids require smart buildings with distributed energy resources and demand response networks, building and utility costs are rising, making energy efficiency more important. The document analyzes electricity consumption trends and opportunities at a university, finding lighting and HVAC make up most usage, but efficiency potential is limited due to already low consumption.
Passive House
Designing Low Energy Buildings
A presentation by Katrin Klingenberg, Executive Director Passive House Institute US | PHIUS
www.passivehouse.us
Keynote address at the Columbus Green Building Forum's 2011 Green Building EXPO
"Smart Energy - now its personal".
(Watch talk video at http://conferences.theiet.org/clerk-maxwell/about/index.cfm).
A talk to the Institution of Engineering and Technology about how upcoming energy innovations will change how we consume energy in the home.
Konstructa Energy-Saver mobile welfare unitShane Bowmaker
The document describes the Konstructa Energy-Saver Mobile Welfare Unit, a self-contained mobile unit that provides canteen and toilet facilities for construction sites. It incorporates features like a low-voltage generator, LED lighting, and diesel heating to reduce fuel consumption and emissions. Using the unit can save over £240 per week in costs and reduce diesel usage by over 260 litres per week compared to a standard generator. The all-in-one unit is easy to transport and set up, providing hygienic toilet and eating facilities for workers in an eco-friendly package.
The document discusses MIROM's installation of an organic rankine cycle (ORC) system to their municipal waste incinerator to increase energy efficiency and generate electricity. It describes the incinerator's existing heat recovery process and need to find additional ways to recover energy. The ORC was chosen for its ability to generate electricity from the incinerator's low temperature heat. Data provided shows the ORC generating over 16,000 MWh of electricity annually while maintaining high availability. The system has proven profitable and increased the total energy recovered from the incinerator.
2011 Passive House Conference, Synergy Case StudyTE Studio
High-performance is inherently linked to higher first-day cost. Most assume that it only exists at the top of the market. Affordability is often confused with cheap upfront cost. The two present a seemingly irreconcilable conundrum.
TE Studio’s approach defines affordability as something that is financially sustainable over a given period of time. Within this paradigm, first-day costs become a line item on a laundry list of lifecycle cost an owner is typically faced with. The Synergy case study aims to clarify the difference between first-day cost and total cost of ownership, thus redefining affordability and the impact of high-performance design on sustainable and financially viable structures in cold climates (Climate Zone 6).
Synergy is a highly energy efficient, durable and flexible compact home designed as a conversation starter which aims to make high performance accessible to a broad section of owners and developers. Entirely designed without client input and in our free time, Synergy is TE Studio’s testbed for affordability as well as high-performance assemblies and systems. Synergy has not been built but is currently being considered by different entities for projects in 2012.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
Danny Parker discusses his experience retrofitting his home in Cocoa Beach, Florida to achieve near zero net energy use. The home was originally built in 1958 with uninsulated construction and used about 20,000 kWh per year. Parker implemented various energy efficiency upgrades over 20 years like adding insulation, sealing ducts, installing solar panels, and switching to more efficient appliances and lighting. These retrofits reduced the home's energy use by over 99% and it now produces nearly as much energy as it uses through a 4.1 kW solar photovoltaic system. Parker details the costs of the retrofits and the resulting savings on his utility bills. He advocates that others can achieve similar results through incremental efficiency upgrades and on-
Passive House slideshow for Passive House MinnTE Studio
This is an introductory slideshow about the Passive House building energy standard that I gave at the Passive House Minnesota event in Miinneapolis on 2/3/2011.
The slideshow contains a lot of full-screen images but no subtitles, therefore omitting some of the information which would have been given verbally during the presentation.
Building Intelligence Quotient 2.0 provides a development update on intelligent, or smart, buildings. Intelligent buildings integrate building systems, communications, and controls to provide flexible, effective, comfortable, and secure environments for owners, operators, and occupants. As smart grids require smart buildings with distributed energy resources and demand response networks, building and utility costs are rising, making energy efficiency more important. The document analyzes electricity consumption trends and opportunities at a university, finding lighting and HVAC make up most usage, but efficiency potential is limited due to already low consumption.
Passive House
Designing Low Energy Buildings
A presentation by Katrin Klingenberg, Executive Director Passive House Institute US | PHIUS
www.passivehouse.us
Keynote address at the Columbus Green Building Forum's 2011 Green Building EXPO
"Smart Energy - now its personal".
(Watch talk video at http://conferences.theiet.org/clerk-maxwell/about/index.cfm).
A talk to the Institution of Engineering and Technology about how upcoming energy innovations will change how we consume energy in the home.
Konstructa Energy-Saver mobile welfare unitShane Bowmaker
The document describes the Konstructa Energy-Saver Mobile Welfare Unit, a self-contained mobile unit that provides canteen and toilet facilities for construction sites. It incorporates features like a low-voltage generator, LED lighting, and diesel heating to reduce fuel consumption and emissions. Using the unit can save over £240 per week in costs and reduce diesel usage by over 260 litres per week compared to a standard generator. The all-in-one unit is easy to transport and set up, providing hygienic toilet and eating facilities for workers in an eco-friendly package.
The document discusses MIROM's installation of an organic rankine cycle (ORC) system to their municipal waste incinerator to increase energy efficiency and generate electricity. It describes the incinerator's existing heat recovery process and need to find additional ways to recover energy. The ORC was chosen for its ability to generate electricity from the incinerator's low temperature heat. Data provided shows the ORC generating over 16,000 MWh of electricity annually while maintaining high availability. The system has proven profitable and increased the total energy recovered from the incinerator.
This is a project developed in Shanghai, China during June, 2010. The goal was to teach kids how to behavior in the case of earthquake in an interactive way.
The document proposes an interactive game to make people more aware of their surroundings and experience kindness from others. The game would involve spreading meaningful objects around the city and tracking their locations as people find and move them, sharing stories. The goal is to create a map of meaningful places connected by the objects. Further development is needed to refine the concept and make the game more engaging.
This was a projected developed in Beijing, China, during June, 2010, having as target the students at Dandelion School. The goal was to teach finance to those kids in a practical way.
The document summarizes notes from a thesis studio meeting where the student Isadora Dantas discusses ideas for promoting philanthropy through interactive kindness. The professor provides feedback that the student's prototypes do not align with wanting to inspire good deeds for others. The student then discusses an idea for an interactive "kindness chain" where good deeds are passed on and it is known that a child in need will ultimately benefit. Statistics on volunteering and charitable giving in the US are presented, leading to an idea called "Random Acts of Kindness" that involves raising funds through good gestures.
The document describes a proposed 2D adventure game called Gravity. The game takes place on a small planet where a space station accident has stranded the protagonist and another astronaut. Players must navigate the planet's terrain by manipulating gravitational fields to solve puzzles, avoid radiation, and rescue surviving inhabitants to build relationships and ultimately save the other astronaut. Player choices and actions will determine multiple possible endings that explore the themes of relationships and emotions.
http://inarocket.com
Learn BEM fundamentals as fast as possible. What is BEM (Block, element, modifier), BEM syntax, how it works with a real example, etc.
The document discusses how personalization and dynamic content are becoming increasingly important on websites. It notes that 52% of marketers see content personalization as critical and 75% of consumers like it when brands personalize their content. However, personalization can create issues for search engine optimization as dynamic URLs and content are more difficult for search engines to index than static pages. The document provides tips for SEOs to help address these personalization and SEO challenges, such as using static URLs when possible and submitting accurate sitemaps.
Lightning Talk #9: How UX and Data Storytelling Can Shape Policy by Mika Aldabaux singapore
How can we take UX and Data Storytelling out of the tech context and use them to change the way government behaves?
Showcasing the truth is the highest goal of data storytelling. Because the design of a chart can affect the interpretation of data in a major way, one must wield visual tools with care and deliberation. Using quantitative facts to evoke an emotional response is best achieved with the combination of UX and data storytelling.
This document summarizes a study of CEO succession events among the largest 100 U.S. corporations between 2005-2015. The study analyzed executives who were passed over for the CEO role ("succession losers") and their subsequent careers. It found that 74% of passed over executives left their companies, with 30% eventually becoming CEOs elsewhere. However, companies led by succession losers saw average stock price declines of 13% over 3 years, compared to gains for companies whose CEO selections remained unchanged. The findings suggest that boards generally identify the most qualified CEO candidates, though differences between internal and external hires complicate comparisons.
This document proposes replacing the existing lighting fixtures at the Panglin Hotel in Shenzhen with LED lighting solutions from Kingsun. It details the hotel's 527 guest rooms across various categories. It then provides a product list comparing the existing lighting fixtures totaling 28,844 pieces to the proposed Kingsun LED replacements, listing the quantity, wattage, and total power consumption of each. Installing the LED solutions would save 72% in energy consumption, reducing it from 1,007kW to 286kW.
This document provides specifications for the LIBERTY SERIES high bay industrial fixture. The fixture is designed for high ceiling applications requiring efficient downlight and horizontal illumination with glare control. It features a 100,000 hour system life, maintenance-free operation, energy savings of up to 58% compared to standard HID fixtures, and induction lamps that provide 90% lumen maintenance at 70,000 hours. The ordering guide provides options for lamp wattage, color temperature, voltage, dome style, and accessories. Photometry data is also included.
This document discusses several case studies of deep energy retrofits for affordable housing projects. It provides details on a project at 58 7th Street in Cambridge, MA that underwent a deep energy retrofit. The retrofit included tightening the building envelope, improving insulation, installing efficient windows, a high-efficiency boiler, and solar panels. Modeling showed the retrofit reduced energy use by 44% compared to code and 65% with solar. Construction costs were $154 per square foot but the project was estimated to save $5917 per year on energy bills. Payback on the additional green retrofit costs was estimated at 24 years.
1) The document describes an integrated solar assisted heat pump (ISAHP) system that uses unglazed solar collectors as the evaporator in a refrigeration cycle to increase panel efficiency and heat pump COP.
2) A prototype was built using an R600a refrigerant in a vapor compression cycle coupled to a water storage tank. Testing showed the ISAHP achieved higher solar panel efficiencies of 0.7-0.9 and higher heat pump COPs of 6-8.5 compared to traditional solar systems.
3) The ISAHP provides energy savings over traditional solar thermal systems due to the higher solar collector efficiency keeping panel temperatures lower and the higher evaporator temperatures increasing heat pump performance. The use of
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They include options for stacked or linear configurations and power ranges from 1-4.5 kW. Recommended minimum mounting heights and distances from ceilings are provided for each model.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the key features of each model such as construction materials, emitters, efficiency, mounting options, and specifications. Applications mentioned include churches, halls, sports facilities, schools, industrial spaces, and garages. Technical data on electric rating, dimensions, weight and mounting recommendations are provided for each heater model.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They come in various configurations and power options from 1-4.5 kW and can be mounted in different positions.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They include options for stacked or linear configurations and power ranges from 1-4.5 kW. Recommended minimum mounting heights and distances from ceilings are provided for each model.
The document proposes an alternative technology project to reduce greenhouse gas emissions from a housing construction project in Mexico. The key points are:
1) A construction company is building 10,000 homes that would emit over 108,540 tons of CO2 annually using conventional technology, exceeding Mexico's limit of 25,000 tons.
2) The proposed alternative uses solar panels, LED lights, and solar water heaters, reducing emissions to 24,462 tons annually.
3) This alternative would cost $230.9 million initially but save $158.9 million annually in energy costs while generating $121.1 million annually from selling the reduced emissions credits. The investment would be recouped in 1 year and 9 months
Practical eLearning Makeovers for EveryoneBianca Woods
Welcome to Practical eLearning Makeovers for Everyone. In this presentation, we’ll take a look at a bunch of easy-to-use visual design tips and tricks. And we’ll do this by using them to spruce up some eLearning screens that are in dire need of a new look.
Discovering the Best Indian Architects A Spotlight on Design Forum Internatio...Designforuminternational
India’s architectural landscape is a vibrant tapestry that weaves together the country's rich cultural heritage and its modern aspirations. From majestic historical structures to cutting-edge contemporary designs, the work of Indian architects is celebrated worldwide. Among the many firms shaping this dynamic field, Design Forum International stands out as a leader in innovative and sustainable architecture. This blog explores some of the best Indian architects, highlighting their contributions and showcasing the most famous architects in India.
This is a project developed in Shanghai, China during June, 2010. The goal was to teach kids how to behavior in the case of earthquake in an interactive way.
The document proposes an interactive game to make people more aware of their surroundings and experience kindness from others. The game would involve spreading meaningful objects around the city and tracking their locations as people find and move them, sharing stories. The goal is to create a map of meaningful places connected by the objects. Further development is needed to refine the concept and make the game more engaging.
This was a projected developed in Beijing, China, during June, 2010, having as target the students at Dandelion School. The goal was to teach finance to those kids in a practical way.
The document summarizes notes from a thesis studio meeting where the student Isadora Dantas discusses ideas for promoting philanthropy through interactive kindness. The professor provides feedback that the student's prototypes do not align with wanting to inspire good deeds for others. The student then discusses an idea for an interactive "kindness chain" where good deeds are passed on and it is known that a child in need will ultimately benefit. Statistics on volunteering and charitable giving in the US are presented, leading to an idea called "Random Acts of Kindness" that involves raising funds through good gestures.
The document describes a proposed 2D adventure game called Gravity. The game takes place on a small planet where a space station accident has stranded the protagonist and another astronaut. Players must navigate the planet's terrain by manipulating gravitational fields to solve puzzles, avoid radiation, and rescue surviving inhabitants to build relationships and ultimately save the other astronaut. Player choices and actions will determine multiple possible endings that explore the themes of relationships and emotions.
http://inarocket.com
Learn BEM fundamentals as fast as possible. What is BEM (Block, element, modifier), BEM syntax, how it works with a real example, etc.
The document discusses how personalization and dynamic content are becoming increasingly important on websites. It notes that 52% of marketers see content personalization as critical and 75% of consumers like it when brands personalize their content. However, personalization can create issues for search engine optimization as dynamic URLs and content are more difficult for search engines to index than static pages. The document provides tips for SEOs to help address these personalization and SEO challenges, such as using static URLs when possible and submitting accurate sitemaps.
Lightning Talk #9: How UX and Data Storytelling Can Shape Policy by Mika Aldabaux singapore
How can we take UX and Data Storytelling out of the tech context and use them to change the way government behaves?
Showcasing the truth is the highest goal of data storytelling. Because the design of a chart can affect the interpretation of data in a major way, one must wield visual tools with care and deliberation. Using quantitative facts to evoke an emotional response is best achieved with the combination of UX and data storytelling.
This document summarizes a study of CEO succession events among the largest 100 U.S. corporations between 2005-2015. The study analyzed executives who were passed over for the CEO role ("succession losers") and their subsequent careers. It found that 74% of passed over executives left their companies, with 30% eventually becoming CEOs elsewhere. However, companies led by succession losers saw average stock price declines of 13% over 3 years, compared to gains for companies whose CEO selections remained unchanged. The findings suggest that boards generally identify the most qualified CEO candidates, though differences between internal and external hires complicate comparisons.
This document proposes replacing the existing lighting fixtures at the Panglin Hotel in Shenzhen with LED lighting solutions from Kingsun. It details the hotel's 527 guest rooms across various categories. It then provides a product list comparing the existing lighting fixtures totaling 28,844 pieces to the proposed Kingsun LED replacements, listing the quantity, wattage, and total power consumption of each. Installing the LED solutions would save 72% in energy consumption, reducing it from 1,007kW to 286kW.
This document provides specifications for the LIBERTY SERIES high bay industrial fixture. The fixture is designed for high ceiling applications requiring efficient downlight and horizontal illumination with glare control. It features a 100,000 hour system life, maintenance-free operation, energy savings of up to 58% compared to standard HID fixtures, and induction lamps that provide 90% lumen maintenance at 70,000 hours. The ordering guide provides options for lamp wattage, color temperature, voltage, dome style, and accessories. Photometry data is also included.
This document discusses several case studies of deep energy retrofits for affordable housing projects. It provides details on a project at 58 7th Street in Cambridge, MA that underwent a deep energy retrofit. The retrofit included tightening the building envelope, improving insulation, installing efficient windows, a high-efficiency boiler, and solar panels. Modeling showed the retrofit reduced energy use by 44% compared to code and 65% with solar. Construction costs were $154 per square foot but the project was estimated to save $5917 per year on energy bills. Payback on the additional green retrofit costs was estimated at 24 years.
1) The document describes an integrated solar assisted heat pump (ISAHP) system that uses unglazed solar collectors as the evaporator in a refrigeration cycle to increase panel efficiency and heat pump COP.
2) A prototype was built using an R600a refrigerant in a vapor compression cycle coupled to a water storage tank. Testing showed the ISAHP achieved higher solar panel efficiencies of 0.7-0.9 and higher heat pump COPs of 6-8.5 compared to traditional solar systems.
3) The ISAHP provides energy savings over traditional solar thermal systems due to the higher solar collector efficiency keeping panel temperatures lower and the higher evaporator temperatures increasing heat pump performance. The use of
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They include options for stacked or linear configurations and power ranges from 1-4.5 kW. Recommended minimum mounting heights and distances from ceilings are provided for each model.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the key features of each model such as construction materials, emitters, efficiency, mounting options, and specifications. Applications mentioned include churches, halls, sports facilities, schools, industrial spaces, and garages. Technical data on electric rating, dimensions, weight and mounting recommendations are provided for each heater model.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They come in various configurations and power options from 1-4.5 kW and can be mounted in different positions.
This document provides information on Ambi-Rad electric radiant heaters, including the Quartz Glow and Ceramic Plaque models. It describes the construction, applications, specifications, and technical data of the heaters. The heaters are suitable for intermittently heated buildings and emit no pollution or light. They include options for stacked or linear configurations and power ranges from 1-4.5 kW. Recommended minimum mounting heights and distances from ceilings are provided for each model.
The document proposes an alternative technology project to reduce greenhouse gas emissions from a housing construction project in Mexico. The key points are:
1) A construction company is building 10,000 homes that would emit over 108,540 tons of CO2 annually using conventional technology, exceeding Mexico's limit of 25,000 tons.
2) The proposed alternative uses solar panels, LED lights, and solar water heaters, reducing emissions to 24,462 tons annually.
3) This alternative would cost $230.9 million initially but save $158.9 million annually in energy costs while generating $121.1 million annually from selling the reduced emissions credits. The investment would be recouped in 1 year and 9 months
Practical eLearning Makeovers for EveryoneBianca Woods
Welcome to Practical eLearning Makeovers for Everyone. In this presentation, we’ll take a look at a bunch of easy-to-use visual design tips and tricks. And we’ll do this by using them to spruce up some eLearning screens that are in dire need of a new look.
Discovering the Best Indian Architects A Spotlight on Design Forum Internatio...Designforuminternational
India’s architectural landscape is a vibrant tapestry that weaves together the country's rich cultural heritage and its modern aspirations. From majestic historical structures to cutting-edge contemporary designs, the work of Indian architects is celebrated worldwide. Among the many firms shaping this dynamic field, Design Forum International stands out as a leader in innovative and sustainable architecture. This blog explores some of the best Indian architects, highlighting their contributions and showcasing the most famous architects in India.
5. kWh Home
1,701.4 2.2
1701.4 kWh
1,701.4 2.2
WALL
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
6. 197 kWh kWh Home
WALL PAINT
1,701.4 2.2
197.0 0.25
1701.4 kWh
1,898.4 2.45
WALL
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
7. 197 kWh kWh Home
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
1701.4 kWh
3,823.4 4.95
WALL
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
8. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
216.0 0.28
1701.4 kWh
4,039.4 5.23
WALL
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
9. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
.80 kWh 216.0 0.28
LAMP 0.8 0.001
1701.4 kWh
4,040.2 5.231
WALL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
10. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
.80 kWh 216.0 0.28
LAMP 0.8 0.001
19.0 0.025
19 kWh
TABLE
1701.4 kWh
4,059.2 5.256
WALL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
11. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
.80 kWh 216.0 0.28
LAMP 0.8 0.001
19.0 0.025
2260 kWh
2,260.0 3.0
COUCH
19 kWh
TABLE
1701.4 kWh
6,319.2 8.256
WALL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
12. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
.80 kWh 216.0 0.28
LAMP 0.8 0.001
19.0 0.025
2260 kWh
2,260.0 3.0
COUCH
19 kWh 2,032.0 2.6
TABLE
1701.4 kWh
8,351.2 10.856
WALL
2032 kWh
CARPET
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
13. 216 kWh
197 kWh kWh Home
CURTAINS
WALL PAINT
1925 kWh 1,701.4 2.2
WINDOW 197.0 0.25
1,925.0 2.5
.80 kWh 216.0 0.28
LAMP 0.8 0.001
19.0 0.025
2260 kWh
2,260.0 3.0
COUCH
19 kWh 2,032.0 2.6
TABLE 565.0 0.73
1701.4 kWh
565 kWh 8,916.2 11.586
WALL
OTTOMAN
2032 kWh
CARPET
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
14. THREE WAYS WE THINK ABOUT ENERGY:
Wednesday, August 25, 2010
15. ENERGY
PRODUCTION:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
NYDesigns presentation to NYSERDA August 17, 2010
Wednesday, August 25, 2010
16. ENERGY
EFFICIENCY:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
NYDesigns presentation to NYSERDA August 17, 2010
Wednesday, August 25, 2010
17. ENERGY
CONSERVATION:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
NYDesigns presentation to NYSERDA August 17, 2010
Wednesday, August 25, 2010
19. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
20. WHO WE ARE:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
21. DESIGN
ARCHITECTURE INTERIOR
BUILD
INSTALLATION
PRODUCT
PRODUCT FASHION
COMMUNICATION
WEB PRINT
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
22. WHAT SEEMS LIKE A MATERIAL ISSUE IS
AN ENERGY ISSUE
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
23. WE WANT DESIGNERS TO SEE
THE MATERIALS THEY USE IN
TERMS OF ENERGY
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
24. EVERY YEAR IN THE US, 7,518,000,000,000 lbs of ALUMINUM ARE PRODUCED.
to produce uses the energy of which equals to
1 lb of 15 lbs of 4 MONTHS
ALUMINUM COAL of a LIGHTBULB
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
25. THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
26. THERE ARE 100 BILLION CANS PRODUCED EACH YEAR IN THE US
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
27. THERE ARE 100 BILLION CANS PRODUCED EACH YEAR IN THE US
EACH CAN WEIGHS 1/2oz OR 14g
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
28. THERE ARE 100 BILLION CANS PRODUCED EACH YEAR IN THE US
EACH CAN WEIGHS 1/2oz OR 14g
IF DESIGNERS ELIMINATE 1g OF ALUMINUM FROM EACH CAN,
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
29. THERE ARE 100 BILLION CANS PRODUCED EACH YEAR IN THE US
EACH CAN WEIGHS 1/2oz OR 14g
IF DESIGNERS ELIMINATE 1g OF ALUMINUM FROM EACH CAN,
220 MILLION LBS OF ALUMINUM WOULD BE SAVED EACH YEAR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
30. THERE ARE 100 BILLION CANS PRODUCED EACH YEAR IN THE US
EACH CAN WEIGHS 1/2oz OR 14g
IF DESIGNERS ELIMINATE 1g OF ALUMINUM FROM EACH CAN,
220 MILLION LBS OF ALUMINUM WOULD BE SAVED EACH YEAR
...SAVING ENOUGH ENERGY TO POWER ONE 100-WATT LIGHT BUILD
FOR 3.4 MILLION YEARS.
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
31. HOW CAN WE HELP DESIGNERS REDUCE
THE ENERGY IMPACT OF THEIR CHOICES?
Wednesday, August 25, 2010
32. THE PROCESS:
THE EMBEDDED ENERGY CALCULATOR 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
33. THE PROCESS:
HARVESTING PROCESSING MANUFACTURING SITE
THE EMBEDDED ENERGY CALCULATOR 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
34. Plant-derived surfactants (from Fabric - polyester Steel
coconut oil & palm kernel oil)
WE RESEARCHED 50 Fabric - nylon Hot-rolled Steel
HDPE plastic
MATERIALS TO START Fabric - acrylic Cold-rolled Steel
Leather Fabric - cotton Conventional brick (clay+grog)
OUR BETA foam - Dunlop
Natural rubber
TESTING: Fabric - wool Brick with glass (glass+clay)
Natural rubber foam - Talalay Benheim glass (60% recycled ) Concrete
Nickel Glass - flat Concrete with fly ash
Traditional varnish Glass - fibrous Concrete with slag
Water-based paint Particle board Asphalt
Aluminum Medium-density fiberboard Brick
Aluminum 15% recycled content Cherry veneer Cobblestone
Aluminum 30% recycled content Maple Purebond particle board Coppersand
Aluminum 45% recycled content 80% recycled Siding
Aluminum 60% recycled content Western red cedar Vinyl
Aluminum 75% recycled content Solid cherry wood Stucco
Aluminum 90% recycled content Softwoods - conventionally dried Metals
Paper 10% post-consumer waste Softwoods - kiln-dried Brass
Oak Hardwoods - conventionally dried Roofing
Granite Hardwoods - kiln-dried Slate Tiles and Tile
Marble Clay Board Cork
Travertine Linoleum Oriented Strand Board (OSB)
Ceramic Quartzite Cardboard
Limestone Sandstone Cork
Mosaic Wood Plywood
Cedar Siding (Green) Bamboo Iron
Cedar Siding (Dried)
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
35. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
36. CONVERSIONS:
energy:
1 BTU = 0.001055 MJ = 0.0002.931 kWh
distances:
1 MILE = 1.609 km
weight:
1 lb = 0.4536 kg = 453.6 tons
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
37. ALL THAT WE HAVE LEARNED HAS
LEAD US TO THE CALCULATOR
Wednesday, August 25, 2010
38. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
39. THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
40. THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
41. THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
42. THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 26th, 2010
17, 2010
Wednesday, August 25, 2010
43. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
44. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
45. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
46. THE PAMPHLET:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
47. USABILITY:
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
48. THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
49. ENERGY CONSUMPTION:
WORLD: USA: NY STATE:
365.5 QUADRILLION BTUS 94,578 TRILLION BTUS 3,988 TRILLION BTUS
51%
30%
30% 28%
29%
29% 11%
8% 29%
19%
19%
14% 27% 32%
22%
22%
INDUSTRIAL TRANSPORTATION RESIDENTIAL COMMERCIAL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
50. ENERGY CONSUMPTION:
WORLD: USA: NY STATE:
365.5 QUADRILLION BTUS 94,578 TRILLION BTUS 3,988 TRILLION BTUS
184.4 QUAD 28.199 TRI 434.151 BI
51%
30% 28%
29% 11%
8% 29%
19%
14% 27% 32%
22%
INDUSTRIAL TRANSPORTATION RESIDENTIAL COMMERCIAL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
51. HOW MUCH WE CAN SAVE:
WORLD: USA: NY STATE:
365.5 QUADRILLION BTUS 94,578 TRILLION BTUS 3,988 TRILLION BTUS
184.4 QUAD 28.199 TRI 434.151 BI
30% = 54.83 QUAD 30% = 8.51 TRI 30% = 147.46 BI
15% 9% 3.7%
INDUSTRIAL TRANSPORTATION RESIDENTIAL COMMERCIAL
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
53. !"#"$%&'() *+,(-,.-* +% /"$& &"%&$"
STANDARDIZATION OF VALUES AND
0%1&,." 1,+".',$*2 '-"(+'34 %&+'%(* ,(-
LABELS SO $,5"$'() *4*+"1 3%. 3,*+ CAN
0.",+" ,
THE ENERGY SUMS
."0%)('+'%( %3 "15"--"- "(".)4
START TO HAVE INDUSTRY-
ACCEPTED MEANING +%+% /"$& &"%&$"
!"#"$%&'() *+,(-,.-* /"$& &"%&$"
!"#"$%&'() *+,(-,.-*
0%1&,." 1,+".',$*2 '-"(+'34 %&+'%(* ,(-
0%1&,." 1,+".',$*2 '-"(+'34 %&+'%(* ,(-
0.",+" , , $,5"$'() *4*+"1 3%. 3,*+
0.",+" $,5"$'() *4*+"1 3%. 3,*+
."0%)('+'%( %3 "15"--"- "(".)4
."0%)('+'%( %3 "15"--"- "(".)4
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
54. DEVELOP A PLUGIN FOR
GOOGLE SKETCH UP
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
55. COMPARISONS:
modeling energy embedded plugin cost
performance energy
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
56. COMPARISONS:
modeling energy embedded plugin cost
performance energy
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
57. COMPARISONS:
modeling energy embedded plugin cost
performance energy
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
58. COMPARISONS:
modeling energy embedded plugin cost
performance energy
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
59. COMPARISONS:
modeling energy embedded plugin cost
performance energy
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
60. COMPARISONS:
modeling energy embedded plugin cost
performance energy
$995
$3995
$4495
$3995
$1996
free
$2500
$995
$10000
free
$6720
$500
$500
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
61. COMPARISONS:
modeling energy embedded plugin cost
performance energy
$995
$3995
$4495
$3995
$1996
free
$2500
$995
$10000
free
$6720
$500
$500
$500
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
62. DEVELOP PARTNERSHIPS WITH
UNIVERSITIES AND MATERIAL
PROVIDERS TO FEED THE
MATERIALS DATABASE
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
63. 7 MATERIALS - MARCH 2010
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
64. 50 MATERIALS - AUGUST 2010
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
65. 5,000 MATERIALS - 2 YEARS FROM NOW
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
66. 50,000 MATERIALS - 4 YEARS FROM NOW
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
67. ESTABLISH AND GROW
USER NETWORK
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
68. DEMAND: 2008 2018
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
69. DEMAND: 2008 2018
architects 141,000 164,000
fashion designers 22,000 24,000
graphic designers 286,000 323,000
industrial designers 44,000 48,000
interior designers 71,000 85,000
landscape architects 26,000 32,000
urban and regional planners 38,000 46,000
design related totals 628,000 722,000
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
70. DEMAND: 2008 2018
architects 141,000 164,000
fashion designers 22,000 24,000
graphic designers 286,000 323,000
industrial designers 44,000 48,000
interior designers 71,000 85,000
landscape architects 26,000 32,000
urban and regional planners 38,000 46,000
Civil engineers 278,400 345,216
Mechanical engineers 238,700 253,022
Industrial engineers 214,800 244,872
Electrical engineers 157,800 160,956
Electronics engineers, except computer 143,700 143,700
Aerospace engineers 71,600 78,760
design related totals 628,000 722,000
design, construction and engineering related totals 1,044,900 1,221,326
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
71. DEMAND: 2008 2018
architects 141,000 164,000
fashion designers 22,000 24,000
graphic designers 286,000 323,000
industrial designers 44,000 48,000
interior designers 71,000 85,000
landscape architects 26,000 32,000
urban and regional planners 38,000 46,000
Civil engineers 278,400 345,216
Mechanical engineers 238,700 253,022
Industrial engineers 214,800 244,872
Electrical engineers 157,800 160,956
Electronics engineers, except computer 143,700 143,700
Aerospace engineers 71,600 78,760
Construction managers 551,000 645,000
Cost estimators 217,000 272,000
Engineering and natural science managers 228,000 246,000
Materials engineers 24,400 26,596
Biomedical engineers 16,000 22,720
Marine engineers and naval architects 8,500 9,010
design related totals 628,000 722,000
design, construction and engineering related totals 1,044,900 1,221,326
engineering related totals 1,105,000 1,226,526
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
72. 2008 2018
design related totals 628,000 722,000
design, construction and engineering related totals 1,044,900 1,221,326
engineering related totals 1,105,000 1,226,526
employment statistics source: Bureau of Labor Statistics www.bls.gov
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
73. 2008 2018
design related totals 628,000 722,000
first year of availability 1% of prim audience 6,280 7,220.00
at $500 $3,140,000.00 $3,610,000.00
design, construction and engineering related totals 1,044,900 1,221,326
engineering related totals 1,105,000 1,226,526
employment statistics source: Bureau of Labor Statistics www.bls.gov
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
74. 2008 2018
design related totals 628,000 722,000
first year of availability 1% of prim audience 6,280 7,220.00
at $500 $3,140,000.00 $3,610,000.00
design, construction and engineering related totals 1,044,900 1,221,326
first year of availability 3% of prim and sec audience 50,187 58,299.78
at $500 $25,093,500.00 $29,149,890.00
engineering related totals 1,105,000 1,226,526
employment statistics source: Bureau of Labor Statistics www.bls.gov
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
75. 2008 2018
design related totals 628,000 722,000
first year of availability 1% of prim audience 6,280 7,220.00
at $500 $3,140,000.00 $3,610,000.00
design, construction and engineering related totals 1,044,900 1,221,326
first year of availability 3% of prim and sec audience 50,187 58,299.78
at $500 $25,093,500.00 $29,149,890.00
engineering related totals 1,105,000 1,226,526
first year of availability 10% of ALL audiences 277,790 316,985.20
at $500 $138,895,000.00 $158,492,600.00
employment statistics source: Bureau of Labor Statistics www.bls.gov
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
76. 2011 2013
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
77. 2004 2005 2006 2007 2008 2009 2010
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
78. 2004 2005 2006 2007 2008 2009 2010
PROJECT MANAGEMENT/ RAISE AWARENESS
MARKETING + NETWORKING
3,200 email list and 6,975 postal address list
Partnered with 15 organizations to improve reach of effort and identify entrepreneurs
Participated in 3 trade shows/awards to foster technology learning from one-on-one sessions
OUTREACH
Developed certificate in Sustainable design at NYDesigns
Developed 2 courses assisting in training product entrepreneurs in green design
60 students in Green Marketing, 62 in Intro to Sustainable Design (Summer 2005 - Winter 2007)
ASSISTANCE
One-on-one counseling on green product development with renewable or biodegradable products
Developed entrepreneur market research
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
79. 2004 2005 2006 2007 2008 2009 2010
NYDESIGNS MANAGEMENT RESTRUCTURING
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
80. 2004 2005 2006 2007 2008 2009 2010
EEC: DESIGNING THE CALCULATOR
RESEARCH
Proposal accepted by NYSERDA
DESIGN DEVELOPMENT
Recruitment of Chambers Design
Recruitment of More Than Us
OUTREACH
Conference: The role of designers in the Green Energy Revolution
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
81. 2004 2005 2006 2007 2008 2009 2010
CALCULATOR DEVELOPMENT
RESEARCH
50 materials for calculator
DESIGN DEVELOPMENT
Online interface design completed
OUTREACH
ICFF May 2010 presence
AIGA Gain Conference October 2010
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
82. 2004 2005 2006 2007 2008 2009 2010
CALCULATOR DEVELOPMENT
RESEARCH
50 materials for calculator
DESIGN DEVELOPMENT
Online interface design completed
OUTREACH
ICFF May 2010 presence
AIGA Gain Conference October 2010
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
83. 2011 2013
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
84. 2011 2012 2013
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
85. 2011 2012 2013
MARCH ‘11
Total mat: 100
Research for Plug-in
Competitor analysis
Outreach
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
86. 2011 2012 2013
MARCH ‘11
Total mat: 100
Research for Plug-in
Competitor analysis
Outreach
APRIL ‘11
Plug-in development
starts
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
87. 2011 2012 2013
MARCH ‘11
Total mat: 100
Research for Plug-in
Competitor analysis
Outreach
MAY ‘11
1st major partner
APRIL ‘11
Plug-in development
starts
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
88. 2011 2012 2013
MARCH ‘11 JUNE ‘11
Total mat: 100 Beta outreach
Research for Plug-in ends
Competitor analysis
Outreach
MAY ‘11
1st major partner
APRIL ‘11
Plug-in development
starts
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
89. 2011 2012 2013
MARCH ‘11 JUNE ‘11
Total mat: 100 Beta outreach
Research for Plug-in ends
Competitor analysis
Outreach
MAY ‘11
1st major partner
APRIL ‘11
Plug-in development
starts
outreach for plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
90. 2011 2012 2013
MARCH ‘11 JUNE ‘11
Total mat: 100 Beta outreach
Research for Plug-in ends
Competitor analysis
Outreach
MAY ‘11
1st major partner
APRIL ‘11
Plug-in development SEPT ‘11
starts 2nd major partner
Business plan
complete
outreach for plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
91. 2011 2012 2013
MARCH ‘11 JUNE ‘11
Total mat: 100 Beta outreach
Research for Plug-in ends
Competitor analysis
Outreach NOV ‘11
MAY ‘11 1,000 materials
1st major partner
$50 membership
APRIL ‘11
Plug-in development SEPT ‘11
starts 2nd major partner
Business plan
complete
outreach for plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
92. 2011 2012 2013
MARCH ‘11 JUNE ‘11 JANUARY ’12
Total mat: 100 Beta outreach 3rd major
Research for Plug-in ends partner
Competitor analysis
Outreach NOV ‘11
MAY ‘11 1,000 materials
1st major partner
$50 membership
APRIL ‘11
Plug-in development SEPT ‘11
starts 2nd major partner
Business plan
complete
outreach for plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
93. 2011 2012 2013
MARCH ‘11 JUNE ‘11 JANUARY ’12
Total mat: 100 Beta outreach 3rd major
Research for Plug-in ends partner
Competitor analysis
Outreach NOV ‘11
MAY ‘11 1,000 materials
1st major partner
$50 membership
APRIL ‘11 APRIL ’12
Plug-in development SEPT ‘11 2,000 materials
starts 2nd major partner
Business plan
complete
outreach for plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
94. 2011 2012 2013
MARCH ‘11 JUNE ‘11 JANUARY ’12
Total mat: 100 Beta outreach 3rd major
Research for Plug-in ends partner
Competitor analysis
Outreach NOV ‘11 MAY ’12
MAY ‘11 1,000 materials Plug-in launched
1st major partner
$50 membership
APRIL ‘11 APRIL ’12
Plug-in development SEPT ‘11 2,000 materials
starts 2nd major partner
Business plan
complete
beta test
outreach for plug-in
plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
95. 2011 2012 2013
MARCH ‘11 JUNE ‘11 JANUARY ’12 JUNE ’12
Total mat: 100 Beta outreach 3rd major 3,000 materials
Research for Plug-in ends partner $150 membership
Competitor analysis
Outreach NOV ‘11 MAY ’12
MAY ‘11 1,000 materials Plug-in launched
1st major partner
$50 membership
APRIL ‘11 APRIL ’12
Plug-in development SEPT ‘11 2,000 materials
starts 2nd major partner
Business plan
complete
beta test
outreach for plug-in
plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
96. 2011 2012 2013
MARCH ‘11 JUNE ‘11 JANUARY ’12 JUNE ’12
Total mat: 100 Beta outreach 3rd major 3,000 materials
Research for Plug-in ends partner $150 membership
Competitor analysis
Outreach NOV ‘11 MAY ’12
MAY ‘11 1,000 materials Plug-in launched
1st major partner
$50 membership
APRIL ‘11 APRIL ’12 JANUARY ’13
Plug-in development SEPT ‘11 2,000 materials 5,000 materials
starts 2nd major partner 2,000 members
Business plan
complete
beta test
outreach for plug-in
plug-in
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
97. GRANT
APPLICATION:
2010
2010 2011
2011 2012
2012
Summer / Fall Winter/ Spring Summer / Fall Winter/ Spring
National Endowment for the Arts $30,000 $30,000 $30,000 $30,000
Rockefeller Foundation $55,000
Dept. of Energy SBIR/STTR $100,000 $750,000
Science National Foundation $100,000 $2,000,000
GE Ecomagination Challenge $100,000
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010
98. WHAT DO WE NEED:
1) TECHNICAL SUPPORT
2) FINANCIAL SUPPORT
THE EMBEDDED ENERGY CALCULATOR
THE EMBEDDED ENERGY CALCULATOR NYDesigns presentation to NYSERDA August 17, 2010
NYDesigns presentation to NYSERDA August 26th, 2010
Wednesday, August 25, 2010