The Sustain MiniHome, a line of sustainable and off-grid pre-fabricated homes designed in Toronto, is highlighted in a recent Guardian article on "reinventing the trailer park" as a model for green development:

[Sustain Design is] partnering with trailer park owners in Canada to transform older parks into those perfect ecotopia villages, with MiniHomes replacing the formaldehyde models ... the goal is to return the parks to as close to their pre-development incarnations as possible, through habitat restoration, de-paving of surfaces to improve groundwater quality, and rainwater collection. Thomson also envisions organic gardening; community solar power, wind turbines, and electric vehicle fleets; even organic grocery delivery and pet waste compost collection areas.

The expansion of the [Vancouver Convention Centre][], which will be celebrating it's grand opening this week, features the largest green roof in Canada with more than 400,000 plants covering almost 2.5 hectares. The expansion, which is aiming for LEED Gold certification, also has an extensive water conservation program, and will heat and cool the building with a sea-water based heat pump to conserve energy. One of the touted green features is shoreline and marine habitat restoration which, for a building which juts out into the ocean, struck me as a bit unlikely. It turns out that the pre-existing shoreline was de-contaminated, and a large concrete reef was added to the base of convention centre expansion. From the [Times Colonist][]: >A new $8.3-million concrete reef - or marine life "habitat skirt" - should be swarming with new sealife within months around the base of the Vancouver convention centre expansion project. Barnacles, mussels, seaweed, starfish, crabs and various fish species are expected to inhabit the five-tiered underwater structure being installed this week. Interestingly, >The Department of Fisheries and Oceans demanded the convention centre install the new marine life facility to replace the habitat displaced by the expanded centre. (Via [Jetson Green][]. Photo from [Vancouver Convention Centre][] website.) [Jetson Green]: http://www.jetsongreen.com/2009/04/vancouver-convention-centre-features-six-acre-living-roof.html "Vancouver Convention Centre Features Canada's Largest Green Roof | JetsonGreen.com" [Times Colonist]: http://www2.canada.com/victoriatimescolonist/news/story.html?id=a9880c5d-b421-43b3-881e-6618897db879&k=97208 "Vancouver convention centre expansion to include marine life 'habitat skirt' | Times Colonist" [Vancouver Convention Centre]: http://www.vancouverconventioncentre.com/ "Vancouver Convention Centre"

The UK Green Building Council is making recommendations to improve biodiversity in urban landscapes, potentially bringing wildlife back into the city and providing green corridors "to allow mammals to commute":

Under recommendations from the UK Green Building Council (UKGBC) for developers, planners and policy-makers, otters could return to urban rivers, bats could roost under bridges, swifts could flock to office blocks and peregrine falcons could soar above cathedrals.

(Via Worldchanging.)

The Toronto Star is reporting that a large solar panel factory, based on thin-film solar technology, will be built in Kingston:

Four entrepreneurs from Toronto announced an ambitious plan yesterday to build a $500-million solar module manufacturing facility in Kingston, an investment expected to create 1,200 direct and indirect "green-collar" jobs in the area.

There is a nice overview of the steps being taken to reduce the environmental impact of concrete production in yesterday's New York Times:

Now the experimentation is more elaborate, designed to tailor the concrete to the need. Increasingly, that need includes the environment. Aesthetic considerations aside, concrete is environmentally ugly. The manufacturing of Portland cement is responsible for about 5 percent of human-caused emissions of the greenhouse gas carbon dioxide. “The new twist over the last 10 years has been to try to avoid materials that generate CO2,” said Kevin A. MacDonald, vice president for engineering services of the Cemstone Products Company.

There is some fantastic stuff in this Worldchanging interview with Amory Lovins, energy efficiency guru, and co-founder of the Rocky Mountain Institute:

The cornucopia of efficiency is real, but it's the manual model: we actually have to go turn the crank. It's not easy, but it's easier than not doing it. And if we do get serious about using energy in a way that saves money, some big problems like oil dependence, climate change, and the spread of nuclear weapons will go away, not at a cost but at a profit, because efficiency is cheaper than fuel. That's a prize worth working hard to capture.

Two Portland Habitat for Humanity Homes Seeking LEED Platinum:

There's a conundrum in the green building world that a lot of people are working on.  They're trying to figure out how to build homes that are both sustainable and affordable -- homes that most of us can approach.  I could rattle off a list of folks working on this, and Habitat for Humanity would certainly be at the top.

I'm encouraged to see progress on this front. New homes will not be truly sustainable unless they are also affordable for all home buyers.

William McDonough, in melodramatic fashion, points out that buildings are built for people:

I'm amazed there's so much focus on carbon, yet [architects are still] using toxic materials ... It's a nightmare -- you're effectively delivering a killing machine. We have to put as much focus on materials as on energy.

(Via Jetson Green.)

A promising initiative to promote renewable energy in homes has been started in Berkeley. The major barrier to installing solar panels is their large upfront cost and long payback period. Even if the savings are there in the long run, homeowners may not have the money upfront to buy solar panels, and they may not want to make a huge investment in a house that they could sell before the 20 years it might take to make their money back. Enter Berkeley FIRST which solves both problems by financing the costs with your property taxes:

Berkeley FIRST (Financing Initiative for Energy Efficiency Renewable and Solar Technology) allows property owners to install solar systems and make energy efficiency upgrades with no upfront cost.

Berkeley pays the upfront costs through the issuance of a new kind of municipal bond. The bonds are repaid from a new line item on participating property owners' property tax bills over 20 years. Participating property owners pay for only the costs of their energy project.

The program is 100% "opt-in" and property tax expenses remain unchanged for those who choose not to participate.

The result: solar and energy efficiency projects are paid for over a long period of time, in bi-annual installments. The interest rate is fixed. Property owners do not need to access their own capital or credit. And if the owner sells the property, the repayment obligation transfers along with the property itself.

(Via Gristmill.)

Treehugger has a lovely slide show of planned and completed green buildings in China, including a large apartment complex heated and cooled by 600 geothermal wells.

An encouraging article in the New York Times talks about the growing interest in green chemistry:

"Students can earn a doctoral degree in chemistry in nearly every university in the country and not have to demonstrate a basic understanding of toxicology or eco-toxicology -- how to design a molecule that doesn't disrupt the endocrine in some way," said Michael Wilson, assistant research scientist at the University of California, Berkeley.

But students, faculty and industry are starting to change that by pushing for programs and courses about alternate design principles, slowly shifting chemistry education.

From the New York Times:

The Energy Department has tentatively awarded its first alternative-energy loan guarantee, breaking a four-year logjam in the federal loan program. The $535 million guarantee will go to Solyndra Inc., which said it would use the money to expand its production of photovoltaic panels at its facilities in Fremont, Calif.

Solyndra manufactures thin-film photovoltaics plated onto cylinders (picture a fluorescent light tube) that collects direct, diffuse and reflected solar energy over a 360° angle. The cylinders are assembled into panels which are easily installed on flat roofs using simple brackets.

More good news on Ontario's proposed Green Energy Act:

Renewable energy in Ontario could get a massive financial boost with newly proposed feed-in tariff rates.

For those unfamiliar with feed-in tariffs, qualifying projects receive an above-market rate for the electricity they produce, fixed for a given time period (say 20 years). All of the electricity produced is sent into the grid. The costs of implementing the incentive program are then spread across all consumers of electricity. In general, the costs increase a customer's utility bill only slightly, while stimulating the development of renewable energy. Of all the ways of promoting renewable energy growth, [feed-in tariffs], though not widely adopted in North America, are found by many analyses to be the most cost-effective incentive program.

The feed-in tariffs will support a wide range of renewable energy options, including biomass, biogas, small-scale hydropower, solar photovoltaics, and wind power. Feed-in tariffs have been wildly successful in Germany at accelerating the adoption of solar and wind power to the point that over 10% of Germany's energy is now produced from renewable sources.

Via Treehugger.

Recent research from the Rocky Mountain Institute highlights the astonishing potential for energy efficiency in the United States:

If the rest of the country achieved the level of efficiency of the top 10 states, we would save 30 percent of U.S. electricity consumption, or 1.2 million gigawatt hours.

This would translate to savings of $100 billion on electricity bills, cutting the equivalent of 60 percent of coal-fired electricity, or avoiding 779 million metric tons of carbon dioxide.

In fact, if less-efficient states matched the efficiency levels of top-performing states, we could wipe out enough carbon dioxide emissions to offset both the Netherlands' and the United Kingdom's emissions for a year!

An insightful, provocatively titled article from the 100K House blog addresses the importance of taking an integrated, holistic process to green building design, as opposed to the much more expensive approach of tacking on 'green' features to a poorly designed building:

In an interview a few weeks ago I was asked what our premium was for building LEED Platinum. The reporter had done some research and found that the highest level of LEED for Homes usually carried a 15-20% markup and wanted to know what the added cost was for our project. It was a difficult question since we don’t have a non-LEED version of the house with which to compare, but eventually I said, "Um . . . I guess . . . negative 5%"

Most of the builders and developers reporting high premiums for pursuing LEED are still trying to build the exact same home they have always built ... they polish the turd. Rather than redesign the house that has been successful for them in the past, they add solar panels, geothermal systems, high end interior fixtures, extra insulation and other green features. Since the features are add-ons and extras, the price rises as each one is tacked on.

To avoid these extra costs, one must start the home design process with affordability and sustainability factored into every decision.

The inspiring 100K house project in Philadelphia, which aims to build affordable, environmentally friendly housing, has announced a new initiative to build two houses to the Passive House standard (which can reduce energy for heating and cooling by over 90%):

We will definitely return to LEED after this project, but we see the Passive House standard as a great way to improve some very specific aspects of our houses, mainly the envelope and the mechanical systems. In these two areas, Passive House far exceeds even the highest standards of LEED.

The goal, as always, is to pursue this new standard in an affordable manner ... Our goal is to adhere to the same requirement as the 100k House project and build this home for less than $100 per square foot in hard construction costs. With any luck this will allow us to provide one of the most affordable Passive Homes ever built in the US.

Zerofootprint is launching an international prize to be awarded to the best designs for re-skinning five buildings in Ontario to make them far more energy efficient. The goal is to dramatically reduce the energy required to heat and cool buildings, which are responsible for roughly 40% of our carbon dioxide emissions.

It is clear ... that any solution to climate change will by definition have to be a solution to the built space in our cities. Rebuilding is not an option and traditional retrofitting is inadequate, and invasive. There is however another option--re-skinning. Usually necessary because a thermal barrier needs to be created to gain any significant energy efficiency, re-skinning has many other advantages such as: It can be used to hide a cheap retrofit; It is potentially non-invasive; It can make a ho-hum building into a handsome green role model; It can be used to engineer an energy reduction of as much as 70%; Re-skinning can be smart — solar, thermal, media, vegetation etc.

To jump-start this process Zerofootprint has announced an international award, The Z-Prize, among architects, engineers, and designers--"The Zerofootprint Skin Renewal Award"--to be launched on May 11, 2009 at the Discovery '09 Conference in Toronto. The goal will be to develop a smart, reproducible, aesthetically pleasing, cost-effective, energy-efficient solution for the re-skinning of buildings. Zerofootprint has assembled a distinguished group of architects, designers and engineers to guide the competition/award.

As a follow-up to my earlier observations on the decline of the world's oceans I highly recommend this wonderful talk by Sylvia Earle -- full of lush videography testifying to the power, beauty and diversity of our oceans -- as she receives the 2009 TED prize, and calls on us to

ignite public support for a global network of marine protected areas, hope spots large enough to save and restore the ocean, the blue heart of the planet.

Sylvia Earle points out that only a fraction of 1% of the oceans are protected from degradation, that 90% of the biomass of large fish has been removed in the last century, that half of the coral reefs are threatened, that we are still killing a truly endangered species, the blue-fin tuna, and that carbon dioxide is acidifying the ocean and threatening the long-term survival of many fundamental species. The world's oceans soak up carbon dioxide from the atmosphere, produce most of our oxygen, and provide abundant food. Sylvia Earle calls the oceans our "life-support system", and it doesn't take much imagination to see why. Dr. Earle wraps up her talk by emphasizing what is still in our oceans and very much worth saving. She calls for the creation of marine reserves to nourish, protect, and enhance the biodiversity, resilience and richness of the oceans. There is still hope. There is still time; but, there is precious little of it:

For the children of today, for tomorrow's child, as never again, now is the time.

Since high-efficiency photovoltaic cells tend to be expensive, one way to reduce the cost of solar panels is to concentrate sunlight from a large area onto a very small cell. A new development from a company in Toronto called Morgan Solar greatly simplifies the concentrating components to drive down the cost of concentrated solar power (their goal is to move below $1 per watt by 2011). Morgan Solar's design can focus the power of 1000 suns onto a high-efficiency solar cell about the size of a baby's thumbnail. From the Technology Review:

Nicolas Morgan holds up a square piece of clear, molded acrylic about a centimeter thick and shines a penlight directly at its flat surface. A green beam enters the acrylic and bends toward the center of the square. Morgan repeats the process at different points on the surface, and each time, the beam darts toward the center.

The acrylic component--called a Light-Guide Solar Optic (LSO)--is a new type of solar concentrator that could significantly lower the cost of generating electricity from the sun. Unlike existing designs, there's no need for mirrors, complex optics, or chemicals to trap and manipulate the light. "It's pure geometric optics," says Morgan, director of business development at Toronto-based Morgan Solar.

(Via Gristmill.)