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Der Blick des Akteurs
(2009)
Purpose - This paper sets out to tackle the issue of climate change from a business perspective. It seeks to discuss why it is important to take climate change considerations into account in business decisions, how this can be done and what further action is required from managers and business scholars.
Design/methodology/approach - The paper describes ways of reducing emissions and adapting to climate change that can be implemented by any business. As an illustration, the proposed climate strategy of a large European utility company, RWE, is provided.
Findings - There are numerous ways to reduce emissions within business operations, along the supply chain and surrounding product usage and disposal. Climate-proofing operations is also becoming increasingly pertinent to businesses.
Research limitations/implications - New ways have to be found yet in order to take emission reductions to a more ambitious level by altering patterns of production and consumption.
Practical implications - The paper discusses how businesses can reduce their carbon footprint and anticipate changes in the physical and political environment related to climate change.
Originality/value - The paper is of value to managers who, today, are expected not only to reduce emissions from operations, but also to gain an awareness of the physical, political and social risks stemming from the impacts of climate change.
While the number of projects under the Clean Development Mechanism (CDM) is expanding rapidly, there currently are relatively few transport projects in the global CDM portfolio. This article examines existing CDM transport projects and explores whether sectoral approaches to the CDM may provide a better framework for transport than the current project‐based CDM. We ask: Would a sectoral approach to the CDM promote the structural change and integrated policymaking needed to achieve sustainable transport policy, making it hence more desirable than the framework of the current project‐based CDM? We conclude that it is possible to design sectoral transport activities within clear project boundaries that fit into a framework of a programmatic or policy‐based CDM. Although we are able to ascertain that transport policy research yields several modelling tools to address the methodological requirements of the CDM, it becomes apparent that sectoral approaches will accentuate transport projects' problems regarding high complexity and related uncertainties. The CDM may need new rules to manage these risks. Nonetheless, sectoral approaches allow the scaling up of activities to a level that affects long‐term structural change.
Economics of Knowledge
(2009)
Bad Hersfeld is a small city with about 30.000 inhabitants situated in the middle of Germany. Climate Protection has been on the political agenda in Bad Hersfeld since quite a while. In 1997 the Wuppertal Institute elaborated a first energy and CO2 balance for the city, which was updated in 2007. With the compilation of the CO2 balance it was shown that the emissions in Bad Hersfeld almost stayed at a constant level between 1997 and 2006.
The result was sobering for the local authority. Although some single measures had been implemented, there was no improvement of the CO2-balance.
It was concluded that a successful climate protection strategy needs a comprehensive concept comprising all sectors and a periodic monitoring. Bad Hersfeld commissioned the Wuppertal Institute to develop feasible measures to reduce the CO2 emissions drastically and instruments to overcome existing barriers. In a close cooperation with the City Council and the local municipal utility a climate protection concept was compiled that is rather ambitious for a city of this size.
In consideration of the regional peculiarities12 concrete measures and 7 accompanying measures build the core of the concept with a main focus on energy efficiency (final energy), combined heat and power (CHP) and renewable energies. Another important part of the concept is a municipal support programme to develop the endogenous efficiency potentials and renewable energies in the region. Further to these planning instruments, information and networking activities are compiled as well as a variety of suggestions for a climate protection marketing (Wagner 2008).
Some of these measures that were developed in an iterative and cooperative process between the responsible actors in Bad Hersfeld and the Wuppertal Institute are transferable to other cities and towns. The impeding factors in Bad Hersfeld like the user-investor dilemma, the low capital of small housing associations or the large stock of listed historical buildings, are typical for cities of this size.
Ende Dezember 2008 wurde im Europäischen Parlament die "Richtlinie über die geologische Speicherung von CO2" (auch als CCS-Richtlinie bezeichnet) verabschiedet, die eine Schlüsselrolle für die Entwicklung und die Umsetzung von Projekten der CO2-Abscheidung und -Speicherung (CCS) spielt. Der Artikel erläutert den Zusammenhang der CCS-Richtlinie mit dem Energie- und Klimapaket der EU, stellt die wesentlichen Inhalte der Richtlinie vor, zeigt die energiewirtschaftlichen Implikationen auf und arbeitet heraus, welche Regelungen zur Umsetzung der Richtlinie nun vom deutschen Gesetzgeber erfolgen müssen.
Carbon capture and storage
(2009)
Considering the traditional coal-based energy infrastructure in the German state North Rhine-Westphalia the question arises how to face the needs of embanking climate change. To reduce greenhouse gas intensive electricity generation in the Ruhr area, the introduction of carbon capture and storage (CCS) is an option of particular relevance. The paper investigates and discusses possibilities of setting up a CCS infrastructure in NRW. It shall clarify whether, and possibly how, highly efficient conventional fossil fired power plants could be refitted with CO2 capture to flexibly react to potentially changing climate policy conditions and to keep up with the market.
Several countries with large coal deposits but limited domestic oil reserves show high interest in coal-to-liquid (CtL) technologies, which could reduce crude oil imports by converting coal into liquid hydrocarbon fuels. After decades of successful large-scale operating experiences in South Africa, CtL activities in the United States, China and Germany have been fanned by the high oil price in the last years. However, CtL indicates negative techno-economic and resource-related features, such as high capital costs, high greenhouse gas discharges and high water consumption. Therefore, the technology's diffusion strongly depends on a favourable framework of policies and strong technology advocates. Daniel Vallentin analyses interdependencies between technical and non-technical parameters affecting the diffusion of CtL technologies in the United States, China and Germany. Applying the inter-disciplinary technological system approach, he identifies factors which determine the market prospects of CtL in these countries, including costs, the geographic distribution of coal reserves, actor constellations and technology, energy and climate policies. At the end of his study, he derives general conclusions with regard to driving forces and barriers for CtL diffusion. As the investigated countries are major consumers of energy and belong to the world's largest emitters of greenhouse gases, their strategies in substituting crude oil based fuels are of utmost global relevance. Therefore, Vallentin's study is recommended to experts, planners, decision-makers, and politicians in the field of climate and resource protection.
The barriers to linking greenhouse gas cap-and-trade schemes are assessed, based on an analysis of existing and emerging trading schemes, including those in the USA, Japan, Australia, New Zealand and the EU. The feasibility of different forms of linking and the time frames for their implementation are examined. In particular, the barriers to direct bilateral linking are considered. It was found that only a few direct bilateral links will be viable in the short term, due to the divergent policy priorities of different nations and regions, reflected in critical design features, such as costcontainment measures. However, in the short term, cap-and-trade markets will very likely be indirectly linked via unilateral links to the CDM or new crediting mechanisms, which may be adopted within a successor treaty to the Kyoto Protocol. In order to ensure a harmonization of critical design elements in the mid to long term, early institutional cooperation may become necessary. Necessary policy steps and the appropriate institutional framework for such harmonization and, overtime, further integration of trading schemes are briefly delineated.
This paper presents the strategy for a large EU-funded Integrated Project: EXIOPOL ("A New Environmental Accounting Framework Using Externality Data and Input-Output Tools for Policy Analysis"), with special attention for its part in environmentally extended (EE) input-output (IO) analysis. The project has three principal objectives: (a) to synthesize and further develop estimates of the external costs of key environmental impacts for Europe; (b) to develop an EE IO framework for the EU-27 in aglobal context, including as many of these estimates as possible, to allow for the estimation of environmental impacts (expressed as LCA themes, material requirement indicators, ecological footprints or external costs) of the activities of different economic sectors, final consumption activities and resource consumption; (c) to apply the results of the work to external costs and EE I-O for illustrative policy questions.
How much energy saving is 1 % per year? : We still don t know, but we know better how to find out
(2009)
Iran is one of the largest oil producers and natural gas owners globally. However, it has to struggle with domestic energy shortages, economic losses through energy subsidisation and inefficient energy infrastructures. Furthermore, GHG and other energy related emissions are rapidly increasing and posing a growing threat to local environment as well as global climate. With current trends prevailing, Iran may even become a net energy importer over the next decades. Resource allocation is therefore a crucial challenge for Iran: domestic consumption stands versus exports of energy.
The energy transformation sector clarifies Iran's dilemma: soaring electricity demand leads to blackouts, and power plant new builds are far from using most efficient technologies (e. g. CHP), therefore keeping energy intensive structures. But fossil fuels could be sold on international markets if spared by having more efficient energy infrastructures.
As shown by the high energy intensity of its economy, Iran has large potentials for energy saving and efficiency. In order to highlight and better identify this potential the paper contrasts a high efficiency scenario in all sectors of energy transformation and consumption with a possible "business as usual" development.
Using a bottom-up approach, the analysis provides a sector-by-sector perspective on energy saving potentials. These can be utilised on the demand side especially in the transport sector (fuels) and in households (electricity for appliances, natural gas for heating). Electricity generation bears efficiency potentials as well.
We conclude that Iran, but also the international community, would benefit on various levels from a more energy-efficient Iranian economy: Energy exports could increase, generating more foreign currency and reducing the pressures on international oil and gas prices; energy consumption would decrease, leading to lower needs for nuclear energy and for subsidies to Iranian people, as well as to a reduction of the high external costs entailed by fossil fuels combustion (smog in cities, environmental stress).
Der Ölpreis wird von zahlreichen Faktoren beeinflusst. Die OPEC spielt bei der Preisbildung derzeit nur eine geringe Rolle. Ein Peak Oil wird die Ölpreise stark beeinflussen und zahlreiche Ausweichdynamiken in Gang setzen, die in ihrer Struktur und Quantität bisher jedoch meist unverstanden sind. Ein ökonomischer Ansatz zu deren Bewertung greift aufgrund vorliegender nicht-ökonomischer Hemmnisse zu kurz. Eine Folge von Rohstoffverknappungen ist eine steigende Energieunsicherheit auf globaler Ebene. Daher ist ein grundsätzlicher Umbau der heutigen Versorgungsstrukturen geboten, um in Zukunft besser gegen strukturelle Unsicherheiten gerüstet zu sein.
More and more countries are incorporating the instrument of emissions trading into their national climate policies. This emerging mosaic of emissions trading schemes (ETS) raises the question of whether they should be linked with each other. From an economic point of view, linking of domestic schemes is supposed to increase the economic efficiency of carbon markets. In addition, linking is also expected by some to yield substantial political benefits in terms of the evolution of the UNFCCC/Kyoto regime. However, these optimistic prospects are based on a best-case scenario where all major countries establish environmentally effective emissions trading systems and then link them with each other. Real-life politics might develop rather differently. This paper therefore examines to what extent the current status of emissions trading in industrialised countries provides a basis for reinforcing and moving forward the international climate regime through linking domestic ETS. After comparing emerging emissions trading schemes from an institutional perspective, it emerges that not only emissions trading is at a very early stage in most countries, in addition the emerging systems are probably going to be designed very differently from the EU ETS. While for some design features such as the coverage design differences do not matter, there are some areas where the plans in many non-EU countries look crucially different from the EU system. The outlook for a linked international ETS is therefore currently still very uncertain. Given this state of affairs, the EU should pro-actively engage with the non-EU countries to try to harmonise their developing national emissions trading schemes with the EU ETS, widely disseminate the lessons it has learned from the EU ETS, strongly make the case for environmental integrity and at the same time make clear that systems that want to link to the EU ETS will need to meet certain quality criteria.
The current emissions trading debates in the EU and the USA were examined and the prospects for creating a transatlantic carbon market were analysed. A future US Emissions Trading Scheme (US ETS) may be designed very differently from the EU ETS, raising questions of compatibility. Crucial differences relate to the stringency of targets, the recognition of offsets, and price control mechanisms. These differences flow directly from the different policy and economic perspectives on emissions trading and climate policy in the USA and the EU. The two sides should therefore seek a way forward that reconciles potentially different climate policies. For example, the USA and the EU should consider an effort to harmonize carbon prices, and US legislation could phase out cost-containment mechanisms after some time period. Finally, both US and EU policies should have mechanisms that allow periodic recalibration, which would allow each to adjust to new technology, react to developing-country climate policies, and learn from each other. In the longer term, this would allow both sides to strive for greater policy convergence, either through linked trading systems, harmonized prices, or a transition from harmonized prices to linkage.