A solar powered greenhouse that makes sense in Canada’s climate
Passive solar greenhouses are an idea whose time has come.
What is a passive solar greenhouse, you ask? And don’t they already use the sun’s energy?
Well yes, but with the traditional Dutch glass box greenhouse design all that heat leaves once the sun goes down. Because they are uninsulated, they don’t store any of that heat. As a result they need a lot of energy to heat the building at night, or they lose an excess heat out during the day.
Energy wise, they just don’t make sense for most of Canada.
The Groundswell Network Society’s community passive solar greenhouse in Invermere, B.C. doesn’t have that problem.
The first thing they did was to get rid of the north-facing glass wall that loses heat and doesn’t bring in light. That north facing wall and the back half of the building was replaced with a roof and a thermally massive concrete wall and floor structure designed to keep the heat in, store heat captured from the sun and release it overnight.
On the front of the building, facing south is the only glass this greenhouse has – a large curved, glass wall. The roof has solar PV panels to generate electricity and it also has a solar thermal hot water system that heats an in-floor concrete heating system. It also has an annualized geo-solar system where hot air is collected from the ceiling and pumped underneath the building.
The future could be looking sunnier after Tesla founder Elon Musk last week unveiled a suite of batteries for homes and businesses.
It’s uncertain how the batteries might affect the energy sector as a whole, but there’s a lot of chatter about their potential for big changes.
The problem with sun and wind is there has been no practical way to store the energy they produce. And the Tesla batteries could solve that problem. Widespread availability of affordable battery storage could unlock the full potential of solar energy.
People in the electricity industry are now looking at what the impact could be on a large scale, including the type of grid needed and planned for in the future.
Right now, power plants produce the majority of electricity in Canada and the power is transferred to homes on transmission lines. Slowly, power grids have had to become two-way as some buildings produce some electricity that is sent back on the grid. Batteries would increase the amount sent back, and could change how utilities plan future infrastructure.
“It’s going to raise some challenges for sure, but ideally, we will get to a more robust, more flexible, and ultimately a less expensive system to operate than if we continued with business as usual,” said John Rilett, director of distributed generation for Enmax, an Alberta utility that operates power plants and the electricity grid in Calgary.
Speaking about Tesla he said: “They have a pretty strong track record of new products that do catch on and grow. “We’re watching it, but nobody really knows where it will go.”
Tesla’s in-home battery pack coming to Canada
Canadians home dwellers will be able to get their hands on a Tesla Powerwall battery in early 2016.
The innovative in-home battery pack is being brought to Canada by Annette Verschuren, the former Home Depot Canada boss who now runs the energy storage company NRStor Inc. Read more…
With demand picking up for industrial equipment manufacturers, they are exploring how they might apply technology to existing assets as they wait to see if the demand is part of a long-term trend. For years, they have relied on automation to improve the output and efficiency of their plants.
Today is no different: Research shows that more than a third (39 percent) of industrial equipment companies are applying automation technology to extend asset life.
Emerging new technologies
What IS different today are the many new and emerging digital and other technologies that have the potential to dramatically improve the production process. For example, digital technologies are transforming the ways in which manufacturers can design and operate their plants and assets within them to make them more efficient and productive.
Leading companies are deploying technology solutions that support the plant’s manufacturing process, quality control activities, organization structure and operating and management model. Additionally, by applying simulation technology, manufacturers are more accurately planning resources, buffer requirements, production rates and lead times.
New tech generates data
One of the major advantages of increased use of automation is the data such technology generates. When a line is completely automated, an industrial equipment maker has access to a wide range of information not available from a non-automated process—including when production starts and finishes, line slowdowns, downtime and quality issues. This information is vital to pinpointing problems that affect manufacturing throughout and to resolving those problems to optimize the manufacturing process overall.
Oil prices have fallen by about 40% since mid-June, while solar stocks have fallen about 20% in that time.
This is not new, solar stock prices have reacted to rising or falling oil prices in the past. Investors fear cheap oil will bring down demand for alternative energy.
But in reality, those fears are completely unfounded. Here are a few things to consider:
Solar energy and energy from oil are used in very different ways: Oil is used mainly for transportation fuels, while solar power gives us electricity to power, for example, our machines and electronic devices, and to provide lighting in our homes and businesses.
As the costs of solar energy production go down, it becomes a better choice as an alternative to other types of electricity generation– which means better returns on investment (ROI) in the long term.
Public utilities and big businesses are increasingly turning to solar to feed our massive need for electricity. The agreements that they sign with solar providers often span decades and are therefore unaffected by oil price changes.
As an economic and jobs driver, the clean energy sector – which encompasses hydro power, as well as wind, solar and biomass – is a much better long term bet. In that sector, employment is up 37 per cent to 23,700 people over 5 years in Ontario, B.C. and Quebec. That compares with 22,340 employed in the oilsands. (Solar ‘farms’ are even being planned in oil rich Alberta, where sunlight is intense and plentiful.) Wind, solar, run-of-river, and biomass energy has grown by 93 per cent since 2009.
The bottom line for investors? Solar is here to stay and the future for solar ROI keeps getting brighter (so to speak).
Quebec-Ontario alliance underscores lack of leadership in Ottawa…
Last Friday Premier Wynne signed a breakthrough agreement with the Premier of Quebec that will end Ontario’s 100-year old policy of electricity separatism.
Starting next year Ontario will provide Quebec with 500 megawatts of electricity supply in the winter when Quebec power demand peaks, while Quebec will provide Ontario with the same in the summer when air conditioning drives up our electricity usage.
Even more importantly, the two provinces have agreed to investigate the potential for a long-term electricity supply contract, which would allow Ontario to import water power from Quebec instead of re-building some or all of its aging nuclear reactors. Water power imports from Quebec could save Ontario consumers $14 billion over 20 years by allowing Ontario to phase-out Darlington’s aging reactors.
We are in a period of transition with renewables. With prices coming down and research ramping up, it feels like are starting to turn a corner.
We need a flexible grid
One of the biggest puzzles is how to store electricity, as we shift to using more and more renewable energy sources. The electricity grid needs to be able to be more flexible to the fluctuations in supply of wind, solar, etc.
Larger institutions are starting to seriously look for answers to that question. In the US, there are are investigations in a number of areas, including the Long Island Power Authority, The Hawaii Electric Company and the California Public Utilities Commission:
Ontario is also working setting out on this quest. The province’s Independent Electricity System Operator (IESO) recently chose five companies to work on demonstration projects designed to capture and release energy.
The technologies that will be tested include advanced batteries, systems that store power in the form of hydrogen, and even flywheels that hold energy as kinetic energy in a spinning rotor.
The test projects will be distributed at various locations around the province, and will be connected to different parts of the grid to see how effectively they can help balance supply, demand and other transmission issues.
Dimplex helps out
One of the companies chosen is one that we work with here at SNDI…
Dimplex North America Ltd. will install thermal systems in apartments in Hamilton, Ont., that store electricity as heat in special bricks, releasing it later when the building needs to be warmed.
For more information on this fascinating subject, here are some resources:
When oil and gas prices drop, as they are doing now, people’s interest in solar energy seems to drop as well. That’s because solar has been more costly.
But that’s changing. In the U.S., solar electricity is on track to be as cheap or cheaper than average electricity-bill prices in 47 US states … in 2016. (That’s assuming the U.S. maintains its 30 percent tax credit on system costs, which is set to expire that same year.) Solar is already coming out ahead in 10 US states.
The reason solar-power generation will increasingly dominate: it’s a technology, not a fuel. As a result, efficiency increases and prices fall as time goes on. The faster the price of solar energy falls, the more viable it becomes as a source of clean power — and the sooner we’ll see it on roofs everywhere.
Solar is also destined to be the world’s biggest single source of electricity by 2050, according to a recent estimate by the International Energy Agency.
Clean Energy Review recently published a great photo essay by Joan Sullivan looking at how wind turbine blades are built. Here’s an exerpt:
Birth of a Blade
PowerBlades opened last year in Welland, Ont, to support the growth in renewable energy in Ontario spurred in turn by the province’s Green Energy Act. As of October, the company will have fabricated 78 fiberglass blades, each 45 meters long and up to three meters wide, for dozens of 2.05 MW Senvion turbines. Each turbine generates energy to light up about 1,000 homes.
Inside PowerBlades, overhead cranes move girders and blades from one part of the building to the next. Here, 136 production workers, machine operators, and office staff work on various stages of blade production, including lay-up, lamination, curing, sanding, painting, inspection, repair, finishing, loading, and transport.
Blades begin their lives in the plant’s Main Shell Area, where workers lay sheets of fiberglass mat and resin into a pair of side-by-side proprietary molds each about 50 meters long and four meters wide. Each blade is built up in two halves, split down the long axis like a pea pod….
Plug’n Drive is marking the 10,000th electric vehicle sold in Canada with a five-day celebration, including a display of every make and model of EV, along with some great presentations..
It will happen January 12 – 16, 2015, in the Atrium at Brookfield Place, 181 Bay Street, across from Union Station in downtown Toronto.
This 5-day showcase provides the opportunity for visitors to get up and close with the latest models of fully electric and plug-in hyrbid electric vehicles on the market, and to celebrate the clean electricity sector in Ontario and across the country.
It will include a special VIP cocktail reception on Thursday, Jan. 15, from 6 pm – 9 pm including live jazz, cocktails conversation and a chance to get up close with the cars and mingle with stakeholders from across the industry.
SNDI is a Multi-Trade Contractor that offers Industrial, Commercial and Renewable Services
SmartNet Developments is a Contractor servicing Ontario’s construction industry in the industrial, commercial and renewable energy sectors. We are a multi-trade contractor so our customers only need one phone number to call. We are also branching out into infrastructure and sustainable energy projects.