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Surprise! Oil Companies Vastly Underreport Size of Oil Spills
- Surprise! Oil Companies Vastly Underreport Size of Oil Spills
- Oil slicks are much larger in the Gulf of Mexico than previously thought. In November 2012, BP agreed to pay $4.5 billion in fines and plead guilty to criminal charges related to the Deepwater Horizon drilling disaster. As part of their plea agreement, company executives admitted they had misled Congress and the American public by providing false information about ...
Mr. President, There’s a Major Flaw in Your Solution to Climate Change
- Mr. President, There’s a Major Flaw in Your Solution to Climate Change
- America can supply 80 percent of U.S. electricity with renewables by 2050 with commercially available technologies. Barack Obama has been a strong champion of clean energy. Throughout his presidency, even while getting attacked by opponents for supporting the industry, Obama has stuck to his guns on the need to develop more renewable energy and make our economy mor...
World Energy Council marks one-year countdown to World Energy Congr...
- World Energy Council marks one-year countdown to World Energy Congr...
- New report cites Korea as global leader in developing smart grid technology with test-bed project on Jeju Island the world’s largest. The Organising Committee for the 2013 World Energy Congress in Daegu and the World Energy Council (WEC) are marking one year to go until the 2013 World Energy Congress with ceremonies in Seoul and Daegu plus a new report citing...
Baseball person Derek Jeter to world leaders: Climate change is a t...
- Baseball person Derek Jeter to world leaders: Climate change is a t...
- Here’s how you know that the World Economic Forum’s annual gathering in Davos, Switzerland, attracts all of the world’s best and brightest: This morning, an audience heard from Derek Jeter. If you don’t know who Derek Jeter is, allow me to explain. Imagine a group of pirates, a vile, filthy band of lawbreakers and miscreants. Now imagine this group had a captain wh...
Korea NewsMORE
- Largest International LED Technology Exposition in Korea to Open Soon
- It will be launched on June 25 at KINTEX in Ilsan. The International LED EXPO & OLED EXPO 2013, the largest exposition of LED lightings, equipments and components in Korea, will be held in the foreseeable future. Scheduled to be held for 4 days starting on June 25 at KINTEX in Ilsan, the international exposition of LED and OLED products and technologies is expected to be taken part by 260 companies and research organizations from 13 countries, including those of LED/OLED lightings, equipments, components and materials. These companies and organizations will introduce their new technologies and products at some 700 booths. Programs of the international exposition will include trade meetings, a seminar of the Global Lighting Association, and international conferences on LED/OLED. Among companies, Osram Opto Semiconductors GmbH, a subsidiary of Osram, one of world’s top 2 lighting companies, will unveil 5 new color versions of LED Duris P5 and Duris S5 whose lifespan is extended even in high temperature. Kumho Electric will introduce ballast stabilizer-compatible LED tubes that can reduce electric charges by about 34% compared to existing T8 fluorescent lamps, converter-detachable LED tubes and LED flood lights. Feelux, which introduced ‘FEELED®’ at the LED EXPO & OLED EXPO last year, will showcase new products with more diversified models and upgraded functions in this year. Other leading LED lighting companies in Korea, including Techsign Light Panel, Liko Lighting, Jaejin Power LED, Amoluxe, and Sun LED, registered for participation. Lighting equipments and component companies, such as Malcom, Hanyang Semiconductor, Doosung System, Union Elecom, Power Bank, Withlight, Giga Lane, Taewon Scientific, and PSI, also registered. During the exhibition period, the International LED and Green Lighting Conference (ILGLC) 2013 will also be held on June 25~27 under the topic on eco-friendly lighting based on LED. In particular, the seminar of the Global Lighting Association is scheduled to be held on June 25 where leaders of lighting industry in several countries will present papers on technological progresses and tasks for innovation of lighting technologies. Speakers will include Dr. Robert Hick, Vice President of the U.S. National Electrical Manufacturers Association (NEMA); Dr. Chen Yansheng, President of China Association of Lighting Industry (CALI); Dr. Michael Ng at Taiwan Lighting Fixture Export Association (TLFEA); and Dr. Kiyoaki Uchihashi at Japan Electric Lamp Manufacturers Association (JLMA). Further information on the international exposition and conferences is available on its official Website (www.ledexpo.com) and the secretariat (02-783-7979), and citizens can view the exhibition for free if they register for visit on the Website in advance. Source: todayenergy
- Employees at Daesung Energy Take Part in Volunteer Activities of Repairing Old Houses
- Four-member teams participated in volunteer activities for 5 days in relays. Employees at Daesung Energy (President: Kang Seog-gi) began on May 20 to participate in volunteer activities of ‘Repairing Houses of Hope’ in 2013 that are being conducted by the local branch of Habitat for Humanity Korea for 5 days in Seoho-dong, Dong-gu, Daegu. Participants in volunteer activities puttied all cracks in external walls of old houses in preparation for painting. They also removed mold and old wall papers in rooms to be ready for pasting new wall papers and lay new linoleum. Executives and employees at Daesung Energy have been taking part in volunteer activities of repairing houses every year since 2005 as part of their effort to give hope to less privileged families who are frustrated by poor residential environment and excessively burdensome housing costs. In conjunction with the Dong-gu government in Daegu City, the local branch of Habitat for Humanity Korea is carrying forward the ‘program of providing happy homes for residential stability’ in this year for low-income people in the district. Under the program, the two organizations lease shabby deserted houses, which had been hotbed of juvenile crimes, and rent them to neglected people for free after repairing them. Meanwhile, Daesung Energy is conducting a variety of CSR activities for neglected people, especially for those who are living in small inn-type one-roomed houses, such as programs of cleaning inn-type one-roomed houses and repairing obsolete houses. As it has been steadily fulfilling social responsibility as a regional company, Daesung Energy is earning popularity from citizens. Source: e2news
- IEEE-SA Holds Its Annual Board of Directors Meeting in Korea
- They will discuss key issues, including international joint development of standards. The Institute of Electrical and Electronics Engineers Standards Association (IEEE-SA), a global standards development organization, is holding its annual board of directors meeting on May 20~24 in Seoul. The IEEE-SA’s board of directors meeting is attended by President Karen Bartleson of the IEEE-SA, and Researcher Pak Gi-sik at Electronics and Telecommunications Research Institute (ETRI) who is also an executive member of the IEEE-SA board of directors. During their stay in Korea, executive members of the IEEE-SA will concentrate efforts on expanding relations with existing partners and building new relationships with other organizations in Korea. Executive members of the IEEE-SA will discuss outcomes of collaboration and future direction of expanding cooperation with 5 organizations in electric, electronics and standards development organizations in Korea, including Korea Electric Association, Korean Agency for Technology and Standards, Korea Electronics Association, Korean Society of Automotive Engineers, and Telecommunications Technology Association. They will also have meetings with Korea Advanced Institute of Science and Technology (KAIST), ETRI and Korean Intellectual Property Office to discuss ways of building cooperation relations with these organizations. President Karen Bartleson of the IEEE-SA said, “It is quite natural to hold the board of directors meeting in Korea. Korea is growing as a giant in varied areas, including IT, consumer electronics, automobile, electric power, and wired and wireless solutions. And I found limitless growth potential of Korea in developing and applying standards.” Managing Director Konstantinos Karachalios of the IEEE-SA stated, “Collaboration with partners in Korea is the centerpiece for encouraging open standards for global market and establishing global and collaborative technology platforms for resolving major issues faced by mankind. Our visit to Korea this time is meaningful in that it will provide a chance of expanding relations with existing partners and exploring new partners.” He added, “It will also serve as a chance of promoting development of standards in strategically important areas in Korea, such as the Internet of things.” Source: todayenergy
Special ReportMORE
- Energy Poverty Alleviation – 3
- The four quadrants of EPA matrix 1. Community Driven EPA Initiatives Availability of Resource – High Capacity to Pay – Low There are many villages which have abundance of sunlight, are in deep forests with lot of biofuel available but the local population is deep in poverty depending on natural habitat agriculture and cattle grazing for survival. Their lifestyle can be changed for better through intense awareness drive to make them knowledgeable about the benefits of energy access to health, hygiene, education and productivity but such initiatives have to be community driven with upfront support for installation of Energy Supply devices by local government or NGO. In North Eastern India there are dense forests and extreme poverty. Lifestyle of many villages got transformed through the initiative of Local Government and self help groups and more than 1,50,000 roof top Solar PV panels have been installed and are operating satisfactorily for more than a decade now. 2. Commercially Driven EPA Initiatives Availability of Resource – High Capacity to Pay – High Another striking example of a successful business model addressed to the bottom of the pyramid is again from the peripheral villages of Sundarban in North East India where there are different villages still out of reach of electricity grid Bio-fuel based off-grid/distributed electricity generation helped bring prosperity to these villages and consumers were willing to pay a reasonable tariff to make business sense to the entrepreneur. The only problem in such cases is that once the grid connectivity reaches these villages the DDG becomes commercially non-viable which is a big deterrent to the Entrepreneur willing to set up Units in such areas. The issue is compounded by the fact that at times for political benefit leaders make very optimistic and promising commitment for grid electricity reaching these villages much ahead of practically possible dates which puts off entrepreneurs decisions to provide DDG due to inadequate risk coverage and fear of loss of business once grid electricity reaches these places. In such cases it is desirable to have proper institutional and policy support cover the risks and ensure appropriate technology and scale of project to get the optional fit. 3. Institution Driven EPA Initiatives Availability of Resource – Low Capacity to Pay – High There may be places where the available resources may be scarce or fully utilized however; the local villagers may be willing to pay an affordable price for energy they may still not have access to. Such structures calls for exploring the possibility of extra grid connectivity or developing decentralized system using resources imported from neighboring areas careful selection of technology to be adopted and suitable higher size units can be used on a commercial scale. A mix of various available resources used through a smart mini grid may also solve the problem in such cases. For example we can extend a gas pipeline to such areas and it can be tapped at a number of places for small generating units and as fuel for cooking/heating to meet local need. 4. Socially Driven EPA Initiatives Availability of Resource – Low Capacity to Pay – Low The severest cases of energy poverty prevails in areas which are deprived of natural resources of energy and most of the available source of energy is used up in finding means of survival with little or no money spare able for energy access. Such villages should get first priority to access philanthropic funds, CSR initiatives and grants to improve their health, hygiene and lifestyle through energy access. However, the challenge here is that on one hand any project in such locations has to be totally supported through grants and charity still due to lack of awareness its acceptability is local community may be low. There is also a threat of disturbing the fragile socio-economic balance and linkages that marginalized communities have with their local ecosystems. We have to tread softly in such areas and create awareness through training/ education and advantages through live demo to meet the basic minimum requirements of people. Despite modest government lead efforts, most small scale energy production in the energy impoverished world is being taken on by nonprofits and local organizations. These small scale solutions are spreading throughout Africa and other parts of the developing world as a result of small businesses and nonprofits. Some such organization invests in green businesses in developing country to provide them with the capital to implement off the grid energy solutions. Some small American Solar companies, that sells solar powered lanterns to rural and urban homes so homes do not have to rely on kerosene and firewood for lighting; a $224,241 investment to an Indian company, , has sold small scale solar systems to more than 70,000 households in India, and an equity investment in Chinese company that manufactures mini hydropower systems that are used to generate electricity in rural China. Many other organizations are working towards fighting energy poverty by allowing individuals to make micro loans to entrepreneurs in developing countries. Many larger organizations across Globe have taken initiatives to “enable small companies to innovate more rapidly, advises international organizations how to support these emerging [energy] markets, designing market research and performing market research, and helps students engage in the issue.” Individuals can choose from a list of green entrepreneurs on their website, make a loan to help fund green energy projects, track the progress of the project, and eventually get repaid. This is a sustainable and affordable way for ordinary citizens to become involved in remedying energy poverty. Many organizations across the Globe are doing inspiring work, have noble goals, and continue to make a real impact on the lives of the world’s poorest citizens; however, they are small organizations with limited capacity and funds. Small scale projects are for now, the most feasible and economical way of bringing people out of energy poverty, but the projects are just that, small. For the nearly 3 billion people living in energy poverty, this relief is not coming fast enough. It is understandable, then, why private-sector investments in clean energy technology are so small. Yet, while it may make sense for individual companies to make these choices as there is vast opportunity in energy. Prices are declining in solar energy and wind, and they could fall further with new technology. Investment into energy R&D would help secure future, for the billions living in energy poverty. The small scale renewable projects provide the best opportunity for alleviating poverty while not adding to greenhouse gas emissions. By driving down the cost of solar cells, wind turbines, and energy storage electrifying rural areas could become not only become a cost effective proposition for governments, but profitable endeavor for private investors. Conclusion Energy poverty is one of the most important and devastating social issues of our time that has been sidelined for too long, and bringing half of the world’s population out of energy poverty is an enormous task. Innovative policies are needed to bring energy to people who live away from the grid and financing is needed to implement those solutions. As we look to the future we need to develop innovative practices and technologies that will deliver clean energy to the developed world as well as the developing world, and in doing so, we have the opportunity eliminate energy poverty.
- Energy Poverty Alleviation – 2
- AGENDA for ACTION The world is grappling with the challenge of providing energy access to nearly 2bln people deprived of it. Alleviating energy poverty poses numerous problems. Most of the energy poor live in remote rural areas making it difficult and costly to connect to the electrical grid. Some energy poor countries simply do not have the infrastructure or economic means to connect rural inhabitants to the grid. Environmental and climate change issues also makes dealing with energy poverty a tricky situation, mostly because coal remains the cheapest source of energy for much of the world. If electricity was generated from clean, but more expensive sources like wind and solar, rural inhabitants would likely be unable to afford it. Over a billion people are without electricity, so how do they improve their quality of life without adding huge amounts of greenhouse emissions to the atmosphere? There are two main ways to provide energy sources to hitherto under-serviced population: 1. Grid extension – this involves expanding the existing transmission and distribution system to reach hitherto underserved areas. However, since there is a tremendous shortage of generation assets any extension of the T&D systems has to be met with an associated investment in generation assets to be effective. While there continues to be peak energy deficits and considerable investment still required- mainstream capital, both debt and equity, have supported large scale power generation, transmission and distribution companies and the projects they have undertaken. These are typically large scale infrastructure projects that already command a relatively higher share of mainstream commercial credit disbursed to infrastructure. 2. Distributed Generation and Standalone House Systems – this involves funding decentralized small scale projects and consumable energy items (lanterns, torches, stoves etc). Funding for this category of energy access for low income segments needs specialized and targeted funding with small ticket sizes, understanding of the local conditions and end user requirements. While some of the energy service providers- i.e the providers of new technologies and equipment manufacturers might require larger funding and have access to ‘mainstream commercial’ capital there is a large demand from the small scale enterprise, vendors and distributors, of product/services with last mile connectivity to a dispersed and discrete market-base. Therefore the success of funding energy access is inextricably linked to the success of funding of small scale initiatives in general. Funding small scale ventures is particularly difficult in the social space (such as energy access) there is still little awareness in terms of the business models and without appropriate collateral debt funding is in short supply. There are some widely accepted reasons for the shortfall of funding • Lack of sufficient or appropriate collateral • Opacity in operations, • Dominance of proprietorship pattern of ownership • Lack of credit history since the ventures may be less mature or may not have maintained appropriate documentation- issues associated with insufficient and asymmetrical information • Lack of credit appraisal system with inadequate risk assessment techniques. A World Bank survey revealed that most of the small scale enterprises in South Asia faced ‘moderate’ to ‘major’ constraints while accessing bank funding due to high interest rates or inadequate collateral. Implementing Rural Energy Projects for poverty alleviation For implementing an effective Village electrification project we may need to first understand the following support system: • Physical maps of the area (geological maps) showing topography, forest cover, water bodies etc. • Socio –political Map / Census data helps in identifying different groups, fixed and migratory communities, Number of households, adults, women, children , social and cultural values etc. • Pre existing energy infrastructure such as proximity to electricity grid/sub stations, gas pipelines, solid fuel availability and delivery system. • Availability and proximity to motor able roads, railway tracks, waterways etc. • Availability of Schools, Banks, post office, Primary health centers, ponds, wells, tanks etc. • Level of education and skill sets of local people will help in understanding the most effective means of communication like posters, leaflets, talks and drama etc. • Income levels in community and how is the wealth held – in cash, fixed assets like land, building, capital goods, livestock etc. • Decision making process in community, stakeholders, gatekeepers, influence groups • Predominant commercial activity /business in the community such as making handicrafts from local produce, pottery, carpet making etc. • Whether income is mostly locally generated or comes from elsewhere e.g. migratory workers in other states or foreign countries. • How does income vary across the year e.g. with agriculture harvesting, remittance from abroad or regular salary payments from local industry and offices. • What is the current level of expenditure by local people per month to meet their energy needs (in cash or kind). • An understanding of the ability to pay by local people and their willingness to pay • It helps to understand the pattern of expenditure by local people as it helps in understanding their priorities. • Sense of ownership and attitude towards theft and pilferage by local community. • Modalities for collection of revenue. Who will collect? Where will the cash be kept ? periodicity of collection regular or harvest linked ( payable when able) The above information may be collected through appropriate survey /consultation at Village level and also to identify Local Entrepreneurs willing to take up energy access projects on a sustainable business model. The key to success in sustainable energy poverty alleviation would rest with identifying willing and committed local entrepreneurs and then enabling and empowering them to take up Energy access Projects using locally available resources. We would also need to impart requisite skills to the Local Entrepreneur and do hand holding till the EA project becomes sustainable.
- Energy Poverty Alleviation – 1
- “It takes as much energy to wish as it does to plan.” Eleanor Roosevelt Today the world, our earth stands at a critical juncture, where disasters of our own making are coming back to us. One of the biggest challenges that the entire world faces today in unison is energy poverty. Briefly defined, Energy Poverty is a term for a lack of access to electricity, heat, or other forms of energy. Often referring to the situation of peoples in the developing world, the term also implies any quality of life issues relating to this lack of access According to the Energy Poverty Action initiative of the World Economic Forum, “Access to energy is fundamental to improving quality of life and is a key imperative for economic development. In the developing world, energy poverty is still rife. Nearly 1.3 billion people still have no access to electricity, according to the International Energy Agency (IEA). Sustainable Energy for All is an issue intriguing thinkers, planners, and government agencies worldwide. Energy Transforms lives, businesses and economies. For sustainable growth everyone should have access to sustainable energy. The United Nations Secretary General launched a pioneering new initiative “Sustainable Energy for All” to mobilize urgent global action. Also the year 2012 was declared the International Year of Sustainable Energy for All, recognizing that “… access to modern affordable energy services in developing countries is essential for the achievement of the internationally agreed development goals, including the Millennium Development Goals. Achieving sustainable energy for all is an ambitious but achievable target. The need of the hour is to move from Advocacy to Action, to remove conceptual cobwebs, to collaborate for some out of the box innovative strategies, policies and initiatives and make the difference in the lives of people who have yet to receive modern energy services. It is not only important that we reach out to the energy starved people in the farther most corner of the globe, but we must also ensure its sustainability with minimal adverse impact on environment and the energy supply should be acceptable and affordable to the local people. The relationship between energy and poverty has been an issue preoccupying development specialists for many decades. Running modern economies without modern energy is impossible as it is quite well accepted that modern energy use is related in some way to economic development. The concern is whether the provision of energy services leads to economic development or economic development leads to expanding demand for energy. The generally accepted wisdom is that energy is a necessary but not sufficient condition for development. However, this begs the question as to whether the lack of energy, especially modern energy, is one of the causes of poverty. In this paper we examine the impact of energy on poverty reduction and whether it is possible to establish a level at which people can be perceived as “energy poor.” In this sense energy poverty is the point at which people are using the bare minimum energy needed to sustain a healthy life. Beyond this point, energy contributes to increased welfare and higher levels of economic well being. Dimensions of Energy Poverty With the 2015 deadline to achieve the Millennium Development Goals fast approaching ,the world is on a path to an “unacceptable failure, both moral and practical”. None of the MDGs can be delivered without access to modern energy services for the 1.3 billion people who today live without it. A lack of basic energy service impacts all aspects of these people’s lives, from healthcare to clean water, safe housing, education and the potential to earn a living. Rural communities account for 85% of energy poor. Institutions, including the International Financial Institutions and also most governments focus on grid-expansion and densely populated urban areas. This simply leaves the rural poor perpetually exposed and in the dark. Key challenges include the lack of adapted financing mechanisms that can deliver on rural energification schemes; inadequate education and shortage of local skills for project initiation, implementation and system operation; the absence of easy local access to components for equipment maintenance and enhancement; the lack of understanding and political support necessary to replicate enduring local ownership models. Situational Analysis: 1.3 billion people lack access to network electricity. In the absence of vigorous new policies, more than 1 billion People will still lack electricity access in 2030 . • 4 out of 5 people without electricity live in rural areas of the developing world, mainly in South Asia and sub-Saharan Africa • 2.7 billion people rely on traditional biomass – wood, agricultural residues and dung – for cooking and heating. • Poor people in developing countries spend up to a quarter of their cash income on energy • Firms in developing countries lose around 5 percent of their annual sales due to power outages • As of 2004, the richest 20% of the world’s population consume 58% of total energy, whereas the poorest 20% consume less than 4% • Urban air pollution, primarily transport-related, is responsible for upwards of 800,000 deaths globally each year • The world’s billion poorest people use only 0.2 tons of oil-equivalent energy per capita annually, while the billion richest—those earning on average over US$20,000 a year—use nearly 25 times as much • Developing countries have only developed about 20% of their hydropower resources, in comparison to 70% in OECD countries • The electricity sector’s ability to deliver improved service is constrained by poor resource utilization, low asset yields and commercial and technical inefficiency with system losses for ranging from 15% to 45% of electricity distributed • High transaction and unit investment costs constrain service provision in rural areas because of low demand and dispersed populations. • Energy production and use is the source of about two thirds of all global greenhouse emissions, and is by far the largest source of CO2 • 1.6 million women and children die prematurely from indoor air pollution caused by burning solid fuels in poorly ventilated spaces. 40 new million new cases of chronic bronchitis are caused by exposure to soot and smoke every year • Low grade fuels and poor environmental controls in transport and industry are a leading cause of severe urban air pollution in the fast growing cities of developing countries. More than 80% of all deaths in developing countries attributable to air pollution-induced lung infections are among children under 5.
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- Climate refugees? Where’s the dignity in that?
- We need a new narrative in which we frame migration as a way for people to adapt to climate change
This week the Guardian has been running a major series on “climate refugees” about the village of Newtok in Alaska, which faces an imminent threat to its existence from erosion.
The term is problematic for a number of reasons. The first being that people who are facing movement do not like the term. The word “refugee” brings to mind a number of (not always accurate) images: tented camps, long lines of people walking, dangerous boat crossings. People facing the prospect moving hope that they will have some choice in the timing and circumstances of their movement and that when they arrive they will find work and become active members of their new communities. Their hope is that they will move with dignity.
President Anote Tong of Kiribati, an island nation in the Pacific, told Australia’s ABC Radio that the people of Kiribati do not want to leave as refugees but as skilled migrants. Similarly, Ursula Rakova, a campaigner from the Carteret Islands is highly critical of the “climate refugee” narrative: “Our plan is one in which we remain as independent and self-sufficient as possible. We wish to maintain our cultural identity and live sustainably wherever we are.”
Apart from people’s own rejection of the “climate refugee” term there are also several other problems. It’s clear that there are connections between climate change and the movement of people, but the connections are not as clear as the “climate refugee” narrative suggests. The phrase conjures images of large numbers of people moving en masse over long distances and crossing international borders and possibly continents. It seems unlikely that climate change will produce this kind of human movement.
What seems more likely is that climate change might reinforce existing trends in short-term, short distance migration. For example, as subsistence farmers find it increasingly difficult to make a living in rural areas they may move to nearby cities to find work. Whole towns or villages will not move together: in fact, families may not even move together. Far more likely is that one or two household members will move, find work elsewhere and send money home to their community. This statement collected by the EACH-FOR research project from a farmer in Hueyotlipan, Mexico gives a sense of this kind of movement: “Times have changed … the rain is coming later now, so we produce less. The only solution is to go away, at least for a while. Each year I’m working for three to five months in Wyoming. That’s my main source of income.”
Another problem is that the phrase implies that it is easy to untangle the different causes of someone’s movement – that we might be able to pick out a group of people who have moved solely because of climate change. This is very misleading. Even when climate change has contributed to someone’s decision to move many other factors are often as, or more, important. This statement from a Somali farmer in a Ugandan refugee camp gives a clear sense of how multiple factors cause someone to move: “And since there was the war, we did not receive any support from the government. Therefore, there are combined factors that made us suffer: droughts and war. If war did not exist, then we might have been able to stay, but now that the land is looted, there is no way for us to claim it.”
The “climate refugee” narrative leads us away from other vital questions about the connection between climate change and migration: the first being how we protect growing cities. As climate change reinforces the factors pushing people out of the countryside, people will move into areas exposed to new climate-related risks in cities. This raises huge questions about urban planning, infrastructure and how cities plan to deal with the effects of climate change. There is also the possibility that climate change, rather than being a driver for new movement might actually prevent people from moving. Moving to find work is one of the key ways people are coping with falling incomes in rural areas. But moving requires resources, and as people become poorer, moving becomes harder. Climate change could in fact trap people in dangerous locations.
We need a new narrative that helps us address these vital questions, and which the people who are actually moving feel positive about. We need a new narrative in which we frame migration as a way for people to adapt to climate. Rather than being seen as a negative consequence of climate change, we need to describe moving in dignity as a way for some people to survive. Source: Guardian Related articles
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- Amazon deforestation rate up 88 percent over last year
- For the last several years, deforestation rates in the Brazilian Amazon have been in steady decline, reaching its lowest point on record just last year. But despite this progress the latest figures show that we are not out of the woods yet — in a literal sense of that phrase, however, we are a little closer.
According to the Brazilian forest monitoring agency, IMAZON, which uses satellite imagery to track deforestation in near real-time, the world’s largest rainforest lost of 606 square miles of rainforest between August 2012 and April 2013 — an area equivalent to nearly 300,000 football fields. All told, this latest figure represents an increase of 88 percent over the previous year in which 322 square miles was cleared.
While a troubling turn in light of the steady decline of recent years, the rate recorded in this uptick still pales in comparison to record highs. At its peak in 1995, a total of 9,675 square miles of forest was lost in Brazil, though stepped-up enforcement and improved land management has led to a decline every year since 2004.
It’s unclear what caused the increase in deforestation this year over last, but Mongabay offers several possible explanations, including recent changes to Brazil’s Forest Code which determines the percentage of forest which must be preserved on plantations and ranches. Also, as the Brazilian currency has weakened in this period, the financial incentives to export lumber may have led to an increase in illegal forest harvesting.
Via Mongabay Source: Treehugger Related articles
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- EU tightens offshore-oil regulation in response to BP spill
- The European Union tightened safety rules for offshore oil and natural-gas exploration to curb the risk of a major accident after BP Plc’s 2010 spill in the Gulf of Mexico, the largest in U.S. history.
The European Parliament approved legislation that forces oil and gas companies to submit special hazard reports and emergency-response plans before offshore operations can start. The law also requires operators of offshore platforms to prove their ability to cover potential liabilities and extends the zone in which businesses would be liable for damage to 370 kilometers (230 miles) off the coast from the current 22 kilometers.
“The rules we are currently coming up with can be used as a template at international level,” said Ivo Belet, a Belgian member who steered the legislation through the 27-nation EU assembly today in Strasbourg, France. EU governments have already signaled support for the law, making their final approval a formality in the coming weeks or months.
The tighter regulation marks the EU’s effort to improve safety and bolster the “polluter pays” principle in the energy industry following the Gulf of Mexico spill three years ago. Eleven rig workers died and more than 4.1 million barrels of crude gushed into the Gulf after the Deepwater Horizon rig exploded and sank while drilling BP’s Macondo well off the Louisiana coast.
The EU has almost 1,000 offshore oil installations, including 486 in the U.K., 181 in the Netherlands and 61 in Denmark, the European Commission, the bloc’s regulatory arm in Brussels, said when proposing the new rules in October 2011. The average cost of offshore oil and gas accidents in the EU ranges from 205 million euros ($264 million) to 915 million euros a year, the commission said at the time.
Representatives of the International Association of Oil and Gas Producers weren’t immediately reachable by telephone at the group’s London and Brussels offices to comment on the new EU legislation. Source: Fuelfix Related articles
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- Using data and computer models to store wind energy underground
- The Pacific Northwest National Laboratory has completed a study that comes up with two ways to use compressed air technology to store wind energy in underground chambers, the national lab said Monday. The two ways both use data and computer modelling to figure out the best sites that could successfully bank wind energy to be used at a later time.
Compressed air, as its name suggests, makes use of an electrically powered air compressor that sends pressurized air into a storage facility, which can be man-made or an underground reservoir. The pressurized air is let out later to run a turbine and generator to produce electricity. As much as 80 percent of the electricity used to compress air can be recovered when the pressurized air is used to generate energy, the lab said. Power losses are common when converting one form of energy to another.
Power in under ground caves
Utilities in the Northwest have a good reason for taking a look at energy storage technology. Wind power makes up about 13 percent (8.6 GW) of the power supply for the Northwest, the national lab said. Wind power tends to be most plentiful at night, when demand is at the lowest. Storing wind power for use during the day would help utilities meet their customers’ demand and manage their grids, which run smoothly when there is a balance of supply and demand. That prompted the Bonneville Power Administration to work with the lab to look into whether compressed air would be a good fit.
Many U.S. utilities or power producers have done preliminary studies or even pilot projects to check out different types of energy storage technologies, including various types of batteries. Often their regulators require them to gradually increase the amount of renewable energy they supply to their customers. Wind and solar have been popular choices, but they don’t generate a steady supply of electricity around the clock. Here is where energy storage comes in handy to help utilities manage their supply and demand.
The researchers were looking for two suitable underground sites for storing compressed air. They used data from gas exploration in Washington state and a computer model that simulates the flow of fluids underground. The idea is to see how much air a site can hold and how easy it’d be for the air to be harvested for power generation. For the study, an ideal underground storage would be at least 1,500 feet deep and 30 feet thick, and it should be close to transmission lines, the lab said.
Pacific Northwest
They found two locations, a place by the Columbia River, just across from Boardman, Ore., and another one in the Yakima Canyon that is roughly 10 miles north of Selah, Wash.
The scientists then sketched out two different processes for storing and re-using energy. At the Columbia River location, which is close to a natural gas pipeline, a compressed air storage plant can use natural gas to heat the compressed air and in the process boost the amount of electricity that can be produced.
At the Yakima location, the facility can use geothermal heat to run a chiller, which will in turn cool the air compressor to make it run more efficiently. Geothermal energy also can heat up the compressed air when it’s released from storage.
Bonneville will now take the results of the $790,000 study and do a round of cost-and-benefit analysis to figure out if compressed air makes for a good business case. Source: Washingtonpost Related articles
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- How to Invest in Energy Efficiency to Combat Climate Change
- Energy efficiency is estimated to be a multi-hundred-billion dollar investment opportunity in the U.S., but better policies are required to unlock broad-based financing from institutional investors, who together manage approximately $70 trillion in assets globally.
That is the key finding of Power Factor: Institutional Investors’ Policy Priorities Can Bring Energy Efficiency to Scale, a new report issued today by Ceres and its Investor Network on Climate Risk (INCR). Based on the input of nearly 30 institutional investors and other experts from the energy, policy and financial sectors, Power Factor cites three areas of policy—utility regulation, demand-generating policies and innovative financing policies—that can take energy efficiency financing to a scale sufficient to attract significant institutional investment. Investment analysts estimate that climate change could contribute 10 percent of overall risk within institutional investment portfolios. Furthermore, the International Energy Agency estimates that one-third of emissions reductions must come from energy efficiency in order to avoid the worst impacts of climate change. Energy efficiency-related investments thus offer institutional investors an attractive opportunity to manage the risks of climate change while earning returns.
“Energy efficiency offers investors a potent one-two punch: stable returns and an important strategy for mitigating climate-related risks,” said Mindy Lubber, president of Ceres and director of INCR.
“Policymakers and regulators should work to unlock capital from institutional investors for energy efficiency by promoting the policies identified in this report. Many of these policies do not require public funds, and they can put money back into the pockets of homeowners and business leaders around the country,” Lubber explained.
Although institutional investors hold shares in energy services companies, have improved energy use in their real estate investments and have filed dozens of shareholder resolutions encouraging more efficient energy use at corporations within their portfolios, the report argues that the ability to drive the financing of energy efficiency projects—financing retrofit loans through a secondary market—is unavailable to them. Secondary markets are routinely used to bundle loans, such as mortgages and car loans, and repackage them as securities or bonds. Investors can then purchase shares of these products, and sell them as they would a share of stock. “CalSTRS has made a commitment to energy efficiency. In the last year alone, we’ve engaged nearly 100 of our public equity portfolio companies concerning their energy efficiency efforts. In 2007, 47 percent of buildings in our real estate portfolio received top Energy Star scores; today over 90 percent make that mark,” said Jack Ehnes, CEO of the California State Teachers Retirement System (CalSTRS).
“However, while many of the largest investors in the country are taking action on energy efficiency, more is needed. Smart policy fixes can help us go further to both realize the massive energy efficiency investment opportunity that exists and help avoid the worst of climate change and the risks it presents to our portfolios,” said Ehnes.
“Investors are interested in energy efficiency, but we need a strong pipeline of projects and better information to maximize the investment opportunity,” said Ken Locklin, managing director, Impax Asset Management LLC. “The changes we are seeing at the local level, including stronger public utilities regulations and disclosure standards for building energy performance are all encouraging factors.” Specifically, investors cited several areas of policy that would help to build up a secondary market for energy efficiency retrofit loans:
• Utility Regulations—Public Utilities Commissions and other regulators can move the utility business model from a twentieth century model that rewards increasing energy sales to one that maximizes energy efficiency. At the same time, utilities and their regulators can help make energy efficiency finance programs investment grade through the same protections provided to electricity sales as well as better data sharing and strong contractor and performance standards.
• Demand-Generating Policies—Investors highlighted efficiency-inducing measures including building codes and standards and appliance and equipment efficiency standards set a baseline of efficiency in the marketplace. Building energy disclosure requirements, such as those adopted by cities like Philadelphia, New York City and, most recently, Boston, can provide both an impetus to do energy efficiency retrofits and the transparency to facilitate investments in more efficient buildings.
• Innovative Financing Policies—These policies, including Property Assessed Clean Energy (PACE) bonds, on-bill repayment, credit enhancement and extending Master Limited Partnerships to combined heat and power projects, can overcome the challenge of paying for the upfront costs of energy efficiency retrofits. In addition, these policies help provide vehicles for loans that can be packaged and sold to institutional investors.
“In order for California to realize the full advantages of energy efficiency, we need to focus on policies that encourage institutional investor participation and job creation. We know from our investment colleagues here and around the country that we’re facing similar challenges and opportunities,” said California State Controller John Chiang.
“This is why I am sponsoring legislation in California that will scale-up commercial sector energy efficiency improvements to a level that would be attractive to institutional investors. As this report indicates, the right policies can overcome barriers to low-cost financing for projects that create jobs and use less energy.” Source: Ecowatch Related articles
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