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    The government of India's Harayana state has decided to promote biomass power projects based on gasification in a move to help rural communities replace costly diesel and furnace oil. The news was announced during a meeting of the Haryana Renewable Energy Development Agency (HAREDA). Six pilot plants have demonstrated the efficiency and practicability of small-scale biomass gasification. Capital subsidies will now be made available to similar projects at the rate of Rs 2.5 lakh (€4400) per 100 KW for electrical applications and Rs 2 lakh (€3500) per 300 KW for thermal applications. New Kerala - November 1, 2007.

    A British development NGO, Oxfam, says the EU's biofuels policy could be "disastrous" for poor people if it means agro-industrial production models. However, it also recognizes that "biofuels may offer the potential to reduce poverty by increasing jobs and markets for small farmers, and by providing cheap renewable energy for local use". Oxfam - November 1, 2007.

    Massey University and Palmerston North City Council in New Zealand have found a way to increase the production of biogas to help drive the council's cogeneration engine to produce steam and electricity by co-digesting whey, an unwanted byproduct from milk processing, with sludge from a wastewater treatment plant. A full scale trial is under way at the Totara Road Treatment Plant to develop a cheap method of disposing of whey, increase gas production from the city's digesters and ultimately earn more carbon credits. Manawatu Standard - October 30, 2007.

    U.S. oil prices and Brent crude rocketed to all-time highs again on a record-low dollar, tensions in the Middle East and worries over energy supply shortages ahead of the northern hemisphere's winter. Now even wealthy countries like South Korea are warning that the record prices will damage economic growth. In the developing world, the situation is outright catastrophic. Korea Times - October 26, 2007.

    Ethablog's Henrique Oliveira, a young Brazilian biofuels business expert, is back online. From April to September 2007, he traveled around Brazil comparing the Brazilian and American biofuels markets. In August he was joined by Tom MacDonald, senior alcohol fuels specialist with the California Energy Commission. Henrique reports about his trip with a series of photo essays. EthaBlog - October 24, 2007.

    Italy's Enel is to invest around €400 mln in carbon capture and storage and is looking now for a suitable site to store CO2 underground. Enel's vision of coal's future is one in which coal is used to produce power, to produce ash and gypsum as a by-product for cement, hydrogen as a by-product of coal gasification and CO2 which is stored underground. Carbon capture and storage techniques can be applied to biomass and biofuels, resulting in carbon-negative energy. Reuters - October 22, 2007.

    Gate Petroleum Co. is planning to build a 55 million-gallon liquid biofuels terminal in Jacksonville, Florida. The terminal is expected to cost $90 million and will be the first in the state designed primarily for biofuels. It will receive and ship ethanol and biodiesel via rail, ship and truck and provide storage for Gate and for third parties. The biofuels terminal is set to open in 2010. Florida Times-Union - October 19, 2007.

    China Holdings Inc., through its controlled subsidiary China Power Inc., signed a development contract with the HeBei Province local government for the rights to develop and construct 50 MW of biomass renewable energy projects utilizing straw. The projects have a total expected annual power generating capacity of 400 million kWh and expected annual revenues of approximately US$33.3 million. Total investment in the projects is approximately US$77.2 million, 35 percent in cash and 65 percent from China-based bank loans with preferred interest rates with government policy protection for the biomass renewable energy projects. Full production is expected in about two years. China Holdings - October 18, 2007.

    Canadian Bionenergy Corporation, supplier of biodiesel in Canada, has announced an agreement with Renewable Energy Group, Inc. to partner in the construction of a biodiesel production facility near Edmonton, Alberta. The company broke ground yesterday on the construction of the facility with an expected capacity of 225 million litres (60 million gallons) per year of biodiesel. Together, the companies also intend to forge a strategic marketing alliance to better serve the North American marketplace by supplying biodiesel blends and industrial methyl esters. Canadian Bioenergy - October 17, 2007.

    Leading experts in organic solar cells say the field is being damaged by questionable reports about ever bigger efficiency claims, leading the community into an endless and dangerous tendency to outbid the last report. In reality these solar cells still show low efficiencies that will need to improve significantly before they become a success. To counter the hype, scientists call on the community to press for independent verification of claimed efficiencies. Biopact sees a similar trend in the field of biofuels from algae, in which press releases containing unrealistic yield projections and 'breakthroughs' are released almost monthly. Eurekalert - October 16, 2007.

    The Colorado Wood Utilization and Marketing Program at Colorado State University received a $65,000 grant from the U.S. Forest Service to expand the use of woody biomass throughout Colorado. The purpose of the U.S. Department of Agriculture grant program is to provide financial assistance to state foresters to accelerate the adoption of woody biomass as an alternative energy source. Colorado State University - October 12, 2007.

    Indian company Naturol Bioenergy Limited announced that it will soon start production from its biodiesel facility at Kakinada, in the state of Andhra Pradesh. The facility has an annual production capacity of 100,000 tons of biodiesel and 10,000 tons of pharmaceutical grade glycerin. The primary feedstock is crude palm oil, but the facility was designed to accomodate a variety of vegetable oil feedstocks. Biofuel Review - October 11, 2007.

    Brazil's state energy company Petrobras says it will ship 9 million liters of ethanol to European clients next month in its first shipment via the northeastern port of Suape. Petrobras buys the biofuel from a pool of sugar cane processing plants in the state of Pernambuco, where the port is also located. Reuters - October 11, 2007.

    Dynamotive Energy Systems Corporation, a leader in biomass-to-biofuel technology, announces that it has completed a $10.5 million equity financing with Quercus Trust, an environmentally oriented fund, and several other private investors. Ardour Capital Inc. of New York served as financial advisor in the transaction. Business Wire - October 10, 2007.

    Cuban livestock farmers are buying distillers dried grains (DDG), the main byproduct of corn based ethanol, from biofuel producers in the U.S. During a trade mission of Iowan officials to Cuba, trade officials there said the communist state will double its purchases of the dried grains this year. DesMoines Register - October 9, 2007.

    Brasil Ecodiesel, the leading Brazilian biodiesel producer company, recorded an increase of 57.7% in sales in the third quarter of the current year, in comparison with the previous three months. Sales volume stood at 53,000 cubic metres from August until September, against 34,000 cubic metres of the biofuel between April and June. The company is also concluding negotiations to export between 1,000 to 2,000 tonnes of glycerine per month to the Asian market. ANBA - October 4, 2007.

    PolyOne Corporation, the US supplier of specialised polymer materials, has opened a new colour concentrates manufacturing plant in Kutno, Poland. Located in central Poland, the new plant will produce colour products in the first instance, although the company says the facility can be expanded to handle other products. In March, the Ohio-based firm launched a range of of liquid colourants for use in bioplastics in biodegradable applications. The concentrates are European food contact compliant and can be used in polylactic acid (PLA) or starch-based blends. Plastics & Rubber Weekly - October 2, 2007.

    A turbo-charged, spray-guided direct-injection engine running on pure ethanol (E100) can achieve very high specific output, and shows “significant potential for aggressive engine downsizing for a dedicated or dual-fuel solution”, according to engineers at Orbital Corporation. GreenCarCongress - October 2, 2007.

    UK-based NiTech Solutions receives £800,000 in private funding to commercialize a cost-saving industrial mixing system, dubbed the Continuous Oscillatory Baffled Reactor (COBR), which can lower costs by 50 per cent and reduce process time by as much as 90 per cent during the manufacture of a range of commodities including chemicals, drugs and biofuels. Scotsman - October 2, 2007.

    A group of Spanish investors is building a new bioethanol plant in the western region of Extremadura that should be producing fuel from maize in 2009. Alcoholes Biocarburantes de Extremadura (Albiex) has already started work on the site near Badajoz and expects to spend €42/$59 million on the plant in the next two years. It will produce 110 million litres a year of bioethanol and 87 million kg of grain byproduct that can be used for animal feed. Europapress - September 28, 2007.

    Portuguese fuel company Prio SA and UK based FCL Biofuels have joined forces to launch the Portuguese consumer biodiesel brand, PrioBio, in the UK. PrioBio is scheduled to be available in the UK from 1st November. By the end of this year (2007), says FCL Biofuel, the partnership’s two biodiesel refineries will have a total capacity of 200,000 tonnes which will is set to grow to 400,000 tonnes by the end of 2010. Biofuel Review - September 27, 2007.

    According to Tarja Halonen, the Finnish president, one third of the value of all of Finland's exports consists of environmentally friendly technologies. Finland has invested in climate and energy technologies, particularly in combined heat and power production from biomass, bioenergy and wind power, the president said at the UN secretary-general's high-level event on climate change. Newroom Finland - September 25, 2007.

    Spanish engineering and energy company Abengoa says it had suspended bioethanol production at the biggest of its three Spanish plants because it was unprofitable. It cited high grain prices and uncertainty about the national market for ethanol. Earlier this year, the plant, located in Salamanca, ceased production for similar reasons. To Biopact this is yet another indication that biofuel production in the EU/US does not make sense and must be relocated to the Global South, where the biofuel can be produced competitively and sustainably, without relying on food crops. Reuters - September 24, 2007.

    The Midlands Consortium, comprised of the universities of Birmingham, Loughborough and Nottingham, is chosen to host Britain's new Energy Technologies Institute, a £1 billion national organisation which will aim to develop cleaner energies. University of Nottingham - September 21, 2007.

    The EGGER group, one of the leading European manufacturers of chipboard, MDF and OSB boards has begun work on installing a 50MW biomass boiler for its production site in Rion. The new furnace will recycle 60,000 tonnes of offcuts to be used in the new combined heat and power (CHP) station as an ecological fuel. The facility will reduce consumption of natural gas by 75%. IHB Network - September 21, 2007.


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Saturday, November 03, 2007

Report: energy-saving and efficiency efforts could add more emissions

The UK Energy Research Centre (UKERC) has unveiled a major new report on how 'Rebound Effects' can result in energy savings falling short of expectations, thereby threatening the success of climate policies.

UKERC's The Rebound Effect: an assessment of the evidence for economy-wide energy savings from improved energy efficiency [*.pdf], is the most thorough and in-depth review of rebound effects ever undertaken, reviewing over 500 papers and reports. It analyses the nature, operation and importance of rebound effects and provides a comprehensive review of the available evidence on this topic, together with closely related issues, such as the link between energy consumption and economic growth.

It recommends building 'headroom' into policy targets to allow for rebound effects, raising energy prices in line with energy efficiency improvements or imposing absolute caps on emissions.

An example of a rebound effect would be the driver who replaces a car with a fuel-efficient model, only to take advantage of its cheaper running costs to drive further and more often. Or a family that insulates their loft and puts the money saved on their heating bill towards an overseas holiday (schematic, click to enlarge). In economists' and peak oil circles, rebound effects are sometimes referred to as the 'Jevons Paradox', first formulated in the 19th century in the context of coal consumption.
Rebound effects have been neglected by both experts and policymakers - for example, they do not feature in the recent Stern and IPCC reports or in the Government's Energy White Paper. This is a mistake. If we do not make sufficient allowance for rebound effects, we will overestimate the contribution that energy efficiency can make to reducing carbon emissions. This is especially important given that the Climate Change Bill proposes legally binding commitments to meet carbon emissions reduction targets. We need to get the sums right. - Steve Sorrell, chief author, Senior Fellow at UKERC
The difficulty of developing policy to take rebound effects into account is exacerbated by disagreement over the significance of rebound effects. Some believe that they are insignificant, while others argue that energy efficiency measures lead to increased energy consumption - an outcome that has been termed 'backfire'.

The report argues that rebound effects vary widely between different technologies, sectors and income groups so that general statements about the size of such effects can be misleading:
:: :: :: :: :: :: :: :: :: :: :: :: ::
Rebound effects are notoriously complex. Generally speaking we expect rebounds will be large in energy intensive sectors and smaller for households or small businesses. This is important, since energy efficiency policy usually targets these smaller users. - Steve Sorrell
Rebound effects can be both direct (e.g. driving further in a fuel-efficient car) and indirect (e.g. spending the money saved on heating on an overseas holiday). The evidence is that direct rebound effects are usually fairly small - less than 30% for households for example (table, click to enlarge). Much less is known about indirect effects. However the study suggests that in some cases, particularly where energy efficiency significantly decreases the cost of production of energy intensive goods, rebounds may be larger.

Policy implications
The report formulates several implications on climate policy and recommendations which must allow policy makers to take rebound effects into account:

1. The potential contribution of energy efficiency policies needs to be reappraised.
  • Energy efficiency may be encouraged through policies that raise energy prices, such as carbon taxes, or through non-price policies such as building regulations. Both should continue to play an important role in energy and climate policy. However, many official and independent appraisals of such policies have undoubtedly overstated the contribution of non-price policies to reducing energy consumption and carbon emissions.
  • It would be wrong to assume that, in the absence of evidence, rebound effects are so small that they can be disregarded. Under some circumstances (e.g. energy efficient technologies that significantly improve the productivity of energy intensive industries) economy-wide rebound effects may exceed 50% and could potentially increase energy consumption in the long-term. In other circumstances (e.g. energy efficiency improvements in consumer electronic goods) economy-wide rebound effects are likely to be smaller. But in no circumstances are they likely to be zero.
  • Taking rebound effects into account will reduce the apparent effectiveness of energy efficiency policies. However, many energy efficiency opportunities are highly costeffective and will remain so even when rebound effects are allowed for. Provided market and organisational failures can be overcome, the encouragement of these opportunities should increase real income and contribute to economic growth. They may not, however, reduce energy consumption and carbon emissions by as much as previously assumed.

2. Rebound effects should be taken into account when developing and targeting energy efficiency policy
  • Rebound effects vary widely between different technologies, sectors and income groups. While these differences cannot be quantified with much confidence, there should be scope for including estimated effects within policy appraisals and using these estimates to target policies more effectively. Where rebound effects are expected to be large, there may be a greater need for policies that increase energy prices.
  • ‘Win-win’ opportunities that reduce capital and labour costs as well as energy costs may be associated with large rebound effects. Hence, the implications of encouraging these opportunities need to be clearly understood and quantified. It may make more sense to focus policy on ‘dedicated’ energy efficient technologies, leaving the realisation of wider benefits to the market

3. Rebound effects may be mitigated through carbon/energy pricing – whether implemented through taxation or an emissions trading scheme
  • Carbon/energy pricing can reduce direct and indirect rebound effects by ensuring that the cost of energy services remains relatively constant while energy efficiency improves. Carbon/energy pricing needs to increase over time at a rate sufficient to accommodate both income growth and rebound effects, simply to prevent carbon emissions from increasing. It needs to increase more rapidly if emissions are to be reduced.
  • Carbon/energy pricing may be insufficient on its own, since it will not overcome the numerous barriers to the innovation and diffusion of low carbon technologies and could have adverse impacts on income distribution and competitiveness. Similarly, policies to address market barriers may be insufficient, since rebound effects could offset much of the energy savings. A policy mix is required. To avoid energy efficiency gains from undermining the benefits to climate policy, the report's authors recommend building 'headroom' into policy targets to allow for rebound effects, raising energy prices in line with energy efficiency improvements or imposing absolute caps on emissions.

The report from UKERC is the most thorough and in-depth review of rebound effects ever undertaken, reviewing over 500 papers and reports. It analyses the nature, operation and importance of rebound effects and provides a comprehensive review of the available evidence on this topic, together with closely related issues, such as the link between energy consumption and economic growth.

The UKERC research was led by the Sussex Energy Group (University of Sussex), with contributions from the Surrey Energy Economics Centre (University of Surrey), the Department of Economics at the University of Strathclyde, and the Centre for Energy Policy and Technology at Imperial College.

The UK Energy Research Centre's mission is to be the UK's pre-eminent centre of research, and source of authoritative information and leadership, on sustainable energy systems. The Centre takes a whole systems approach to energy research, incorporating economics, engineering and the physical, environmental and social sciences while developing and maintaining the means to enable cohesive research in energy. UKERC is funded by the UK Research Councils.

References:
UKERC: The Rebound Effect: an assessment of the evidence for economy-wide energy savings from improved energy efficiency [*.pdf] - October 2007

UKERC: The Rebound Effect: presentation [*.pdf] - November 1, 2007.

UKERC: 'Rebound Effects' Threaten Success of UK Climate Policy - November 1, 2007.



posted by Biopact team at 9:49 PM  

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