Tag Archives: atmosphere
A beach view is voted top in UK poll
It is always said that location is important in the UK housing market and it seems that views are too and the most desirable is a beach, new research is found. But while 71% who took part in a new poll named a beach as the best possible view from their home, not all is lost for urban areas as 24% want to see bustling city life. Beach views came out top in the poll by curtains and blinds firm Hillarys, followed by coastal landscapes with 65% of the votes and small, picturesque village life with 54%. But one in 10 identified industrial city life as among their favourite views. Initially, respondents were asked to identify the views they would most like to have from their house and provided with a list of suggestions. In fourth place was farmland with animals, polling 46% if the vote, idyllic rural countryside with 39%, suburban community life with 36%, bustling city life 24%, landscaped gardens 23%, historic or heritage sites 22% and woodland 21%. In addition some 15% stated that they would like to have a view of ‘other houses’ from their home, while 9% felt that a view of ‘industrial city life’ would be ideal. When asked if they currently had their ideal views at home, just 19% stated that they did. The average respondent stated that they would pay an extra 20% for a house if it had access to their ideal view. ‘We have some incredible landscapes here in the UK. There is so much breath taking scenery, it’s easy to take it for granted and forget how lucky we are. The lush green countryside and quaint villages might be traditional, but it seems we have our hearts set on sandy white beachfront houses,’ said the firm’s spokesperson Helen Turnbull. ‘Although we may not be able to uproot our lives and relocate in to the scenery that our hearts desire, perhaps a jaunt to a well situated holiday home to soak up the atmosphere could be worth considering or try creating a nautical environment at home to give us that seaside feeling,’ she added. Continue reading
India Increases Effort to Harness Biomass Energy
Manpreet Romana for The New York Times Workers collect rice straw from the fields in Baghoura, a village in northern India. By AMY YEE Published: October 8, 2013 GHANAUR, India — THE hulking power plant set against the green countryside of Punjab state in northwest India does not look like a source of renewable energy. Yet filling its stockyard, instead of mounds of coal, are bales of rice straw. Machines break up the heavy straw cubes as men with pitchforks hoist fibrous mounds onto a conveyor belt leading to the power plant. Handkerchiefs cover their faces to protect them from dust swirling in the air. Manpreet Romana for The New York Times Workers inspect the machinery at a biomass energy plant in northern India. This is Punjab Biomass Power, a plant near the village of Ghanaur that collects the straw collected from farmers tilling the lush fields of the surrounding countryside. After harvest, they would normally burn this agricultural waste, inedible to people and animals, to clear fields for wheat crops, as farmers across India do, and in that way contribute to the country’s dire air pollution. But at Punjab Biomass, 120,000 tons of rice straw a year are instead burned to generate 12 megawatts of electricity for the state’s power grid. The plant produces emissions, although its filters reduce the amount that outdoor burning would generate. But such biomass energy in theory is considered carbon-neutral because of what these plants use as fuel — like sugar cane pulp and nut shells that took carbon dioxide out of the atmosphere as it grew. Biomass power plants are eligible for carbon credits that translate into cash, and Punjab Biomass hopes to eventually earn hundreds of thousands of dollars a year from the plant. Yet biomass is far from a solution to the enormous energy needs of India and its 1.2 billion people. Alternative energy, like wind, biomass and solar, accounted for less than 8 percent of India’s power generation in 2009. Still, because India imports about 70 percent of its oil and natural gas and relies on coal for more than half of its electricity generation, it must consider all options for energy. In April, Prime Minister Manmohan Singh called for a doubling of India’s nonconventional energy supply, including biomass, from 25,000 megawatts in 2012 to 55,000 megawatts by 2017. “Energy is both scarce and expensive and yet it is vital for development,” said Mr. Singh at the Clean Energy Ministerial in New Delhi. Developing countries “have to expand all sources of supply, including both conventional and nonconventional energy,” he said. Agricultural waste in India is abundant, since roughly 60 percent of its population relies on agriculture for a living. Sunil Dhingra, a senior fellow at the Energy Resources Institute (TERI), a Delhi-based policy center, estimated that India produced 600 million tons of such “agro-waste” each year, 150 to 200 tons of which are not used. This is “a big resource that needs to be channelized,” he said. Some European countries have already successfully harnessed biomass energy. In Finland, biomass such as leaves and wood from its abundant, managed forest industry accounts for 20 percent of the energy supply, according to the European Biomass Industry Association. Sixteen percent of Sweden’s energy comes from biomass. And nearly half of upper Austria’s renewable energy comes from biomass; the region aims to use renewable energy for all of its heat and energy demand by 2030 . Punjab Biomass began operations in November 2010 after converting the existing coal power plant at the site, an option less expensive than building a new plant or solar or wind farm. In Britain and other parts of Europe, some coal-fired plants are converting to biomass to comply with new European environmental regulations, said David Hostert, an analyst with Bloomberg New Energy Finance in London. In India, biomass has the potential to generate at least 18,000 megawatts of electricity, according to the country’s Ministry of New and Renewable Energy. Biomass energy can be produced through big power plants but also in small, rural gasifiers for grass-roots industries like brick kilns. Mr. Dhingra of TERI estimated that there were 800 to 900 biomass power plants and 3,000 small thermal gasifiers across India. Biomass energy also generates extra income for Indian farmers. Punjab Biomass pays 15,000 farmers about 500 rupees, about $8, per acre of rice straw that would otherwise be burned. But there are many challenges to expanding biomass energy, especially collecting, storing and transporting the agricultural waste to power plants. Most farms are fragmented, without organized disposal operations, so energy companies need fleets of threshers and tractors to collect agro-waste from fields. Enough fodder to run a power plant for 11 months must be collected and stored. Punjab Biomass runs mainly on rice straw, but it is considering other agro-waste unfit for livestock, like corn and cotton stalks and sugar cane waste to supplement its current supply. Biomass is stored in enormous depots and must be kept dry even in India’s heavy rains. Companies must get clearance for large swaths of land to store fodder — no easy task in bureaucratic India. Murad Ali Baig, director of Bermaco Energy Systems, one of the partners in the Punjab plant, admitted that getting the plant running “should have taken 18 months but took four years.” The logistics of storing and transporting fodder and maintaining fuel-guzzling equipment is far more complicated than it seems in unpredictable India. “It’s been bloody hard work,” said Mr. Baig. The company is operationally profitable, but still has losses from its first couple of years of business. Still, the company aims to build eight more rice-straw energy plants in Punjab state to generate 96 megawatts of electricity by 2017. Across India, Bermaco hopes to set up about 20 biomass plants generating 240 megawatts during the next three years and about 1,000 megawatts in the next six years. While there is potential for biomass energy in India, the country lacks the efficiency, logistical infrastructure and investments of countries like Finland. There, the public and private sector have invested heavily in research and development. Huge warehouses store leaves and wood to ensure steady, efficient supplies of fodder from well-managed forests. In India, biomass “is low-tech, but let’s invest, like the example we’ve seen in Europe,” Mr. Dhingra of TERI, said. “Industry, academia and government all work on one platform there. You don’t see that happening here.” This article has been revised to reflect the following correction: Correction: October 11, 2013 An article on Wednesday about turning rice stalks into biomass energy in India misstated an estimate by the Energy Resource Institute in New Delhi of the nation’s annual amount of unused agricultural waste. It is 150 million tons to 200 million tons, not 150 tons to 200 tons. Continue reading
Calculator Estimates Biomass Potential
Matthew Weaver Published: October 10. 2013 Matthew Weaver/Capital Press University of Washington research scientist and engineer Luke Rogers demonstrates use of the biomass calculator during a workshop Oct. 9 in Spokane. A biomass calculator is designed to help determine the amount of woody biomass available for potential biofuel development. University of Washington research scientist and engineer Luke Rogers says the tool helps determine the viability of bringing in a biofuel facility. The tool also indicates that the U.S. Forest Service needs to step up forest health efforts if they are to have an impact. SPOKANE — A new calculator can be used to estimate the amount of biomass materials available on forest lands. University of Washington research scientist and engineer Luke Rogers developed the calculator as part of the Washington Forest Biomass Supply Assessment in 2012. The calculator determines the amount of material that would be left over after a commercial timber harvest, Rogers said. That material is typically left behind or burned. Potential users include investors interested in building a new biomass facility or infrastructure like chippers to remove material from the forest land, policy makers supporting legislation to help the biomass industry and the DNR. The calculator shows that if the U.S. Forest Service doubles or triples its current program to treat federal forest lands in Washington, it could “substantially resolve” the majority of forest health issues on eligible lands by 2025 or 2030, Rogers said. “The existing program of treating about 6,000 acres a year doesn’t ever get us to the point where we’ve tackled the majority of forest health issues,” he said. “There needs to be some more aggressive treatments going on in order to get us there any time soon.” The calculator is meant for a watershed scale or larger. It has less use for private landowners, Rogers said, because it’s impossible to model individual landowners and their specific operations. But the tool could be useful to a group of landowners interested in developing a new industry on a countywide or watershed-wide basis. Rogers said landowners could compare the cost of the current practice of burning slash piles, including obtaining air quality permits, to bringing in somebody to take the material to a biofuel facility. “Even if you had to pay to have somebody come in and do that, and it was less than you’re paying now to get your air quality permits and pay to burn, that would be a win as well,” Rogers said. “There is a real opportunity for landowners to be able to change the way they do business and provide a product, rather than carbon into the atmosphere and smoke.” He sees the calculator as a good start toward understanding the floor-source biomass available in Washington. Future companion tools could be expanded to hardwood biofuels, such as planting short-rotation poplars, and all agricultural, municipal or construction wastes as feedstock for biofuels. Online http://wabiomass.cfr.washington.edu – See more at: http://www.capitalpress.com/article/20131010/ARTICLE/131019987#sthash.W6RmmWse.dpuf Continue reading