Refine
Year of Publication
Document Type
- Contribution to Periodical (1851)
- Part of a Book (1504)
- Report (1502)
- Peer-Reviewed Article (864)
- Working Paper (654)
- Conference Object (428)
- Book (192)
- Doctoral Thesis (110)
- Master Thesis (42)
- Periodical Part (17)
Language
Division
Practices and research on measuring traditionally urban sustainability abound, therefore the challenge now is related to how the urban carbon issues are included into current measuring methods, thus there is a need to develop methods for measuring urban low-carbon sustainability. In this paper, a simple method, which is based on low-carbon sustainability index, is developed. The overall urban low-carbon sustainability index is the weighted sum of 11 single indices, and each single index is defined as the indicator assessing the development level against the baseline. The baseline is often the criteria or the minimum requirement of low-carbon sustainability. Case studies in four Chinese cities have put this method into practice, and the results show that all four selected cities fail to pass the testing of sensible low-carbon sustainability rule and they are all in weakly low-carbon sustainable development. Although the four cities have made great progress in their capacity building on pollution control and their capacities on wastewater treatment, main pollutants' removal and household and hazardous wastes treatment are enough to meet the needs of local development, they are all facing the great challenges on using of sustainable energy, offsetting of CO2 emissions and adoptions of nature-based solutions. The method developed by this research is a useful tool for decision makers identifying whether the local development is not on a low-carbon sustainable path.
This paper reports on a nationwide field survey of managing energy efficiency of buildings under energy performance contracting (EPC) in Chinese building sector. The survey aims at getting insight of Chinese experiences of EPC and survey yielded information on profile, specificity and risk specifications of EPC in Chinese building sector. The key findings are that the existing EPC projects are mainly driven by policies and majority of first parties in EPC are owners of public buildings. The contract specificity is worryingly low, with underspecification prominent in the contract sections of renewal and change of the planned solutions, dispute resolution and compensation for personal and property damage. Insufficient risk specification was a major cause of contract failure and disputing. High risks are observed in not enough feasibility study, delay in completion, operational risks, delay in payment and uninsured loss. Most post EPC projects would be worryingly unsuccessful, given to the facts that many of them have not established their energy team, have no further investment and have no effective maintenance. The Chinese existing emission trading scheme (ETS) offers a vital opportunity for upscaling EPC in building sector and policy framing is needed for linking EPC projects and ETS.
Energy service companies (ESCOs) play crucial role in building energy efficiency retrofit sector. However limited access to green financing has prevented ESCOs in their expansions in China. This paper, based on a survey of 469 samples and on-site visiting to and interviewing relevant 50 actors of ESCOs, financial institutions and local housing authorities, identifies main barriers of accessing to green financing at both systemic policy level and operational meso and micro level in China, and analyzes good practices at local level that overcome the barriers. The paper concludes that, although there are barriers existing at the policy level in China, substantial attentions and priorities should be given to take actions for overcoming the barriers existed at the operational meso and micro level. The paper suggests that the good practices of capacity building for ESCOs and local financial sector, intensifying participation of intermediate organizations or facilitators and diversifying financial sources and funding mechanisms and models that emerge from the local level should be disseminated in China.
Creating statistics for China's building energy consumption using an adapted energy balance sheet
(2019)
China's regular energy statistics does not include the building sector, and data on building energy demand is included in other types of energy consumption in the Energy Balance Sheet (EBS). Therefore data on building energy demand is not collected based on statistics, but rather calculated or estimated by various approaches in China. This study aims at developing and testing China's building energy statistics by applying an adapted EBS. The advantage of the adapted EBS is that statistical data is from the regular statistical system and no additional statistical efforts are needed. The research result shows that the adapted EBS can be included in China regular energy statistical system and can be standardized in a transparent way. Testing of the adapted EBS shows that China's building energy demand has shown an annual increase of 7.6% since 2001, and a lower contribution to the total energy demand as compared to the developed world. There is also a close link to lifestyle and living standard while industrial energy demand is mainly driven by economy and decoupling of building energy demand with increasing of building floor area, this is due to a considerable improvement of building energy efficiency. The adapted EBS creates a method for China conducting statistics of building energy consumption at the sector level in a uniform way and serves as the basis for any sound building energy efficiency policy decisions.
In recent years, most countries in the Middle East and North Africa (MENA), including Jordan, Morocco and Tunisia, have rolled out national policies with the goal of decarbonising their economies. Energy policy goals in these countries have been characterised by expanding the deployment of renewable energy technologies in the electricity mix in the medium term (i.e., until 2030). This tacitly signals a transformation of socio-technical systems by 2030 and beyond. Nevertheless, how these policy objectives actually translate into future scenarios that can also take into account a long-term perspective up to 2050 and correspond to local preferences remains largely understudied. This paper aims to fill this gap by identifying the most widely preferred long-term electricity scenarios for Jordan, Morocco and Tunisia. During a series of two-day workshops (one in each country), the research team, along with local stakeholders, adopted a participatory approach to develop multiple 2050 electricity scenarios, which enabled electricity pathways to be modelled using Renewable Energy Pathway Simulation System GIS (renpassG!S). We subsequently used the Analytical Hierarchy Process (AHP) within a Multi-Criteria Analysis (MCA) to capture local preferences. The empirical findings show that local stakeholders in all three countries preferred electricity scenarios mainly or even exclusively based on renewables. The findings demonstrate a clear preference for renewable energies and show that useful insights can be generated using participatory approaches to energy planning.
Energy sufficiency is one of the three energy sustainability strategies, next to energy efficiency and renewable energies. We analyse to what extent European governments follow this strategy, by conducting a systematic document analysis of all available European National Energy and Climate Plans (NECPs) and Long-Term Strategies (LTSs). We collect and categorise a total of 230 sufficiency-related policy measures, finding large differences between countries. We find most sufficiency policies in the transport sector, when classifying also modal shift policies to change the service quality of transport as sufficiency policies. Types of sufficiency policy instruments vary considerably from sector to sector, for instance the focus on financial incentives and fiscal instruments in the mobility sector, information in the building sector, and financial incentive/tax instruments in cross-sectoral application. Regulatory instruments currently play a minor role for sufficiency policy in the national energy and climate plans of EU member states. Similar to energy efficiency in recent decades, sufficiency still largely referred to as micro-level individual behaviour change or necessary exogenous trends that will need to take place. It is not treated yet as a genuine field of policy action to provide the necessary framework for enabling societal change.
On the pathway to climate neutrality, EU member states are obliged to submit national energy and climate plans (NECPs) with planned policies and measures for decarbonization until 2030 and long-term strategies (LTSs) for further decarbonization until 2050. We analysed the 27 NECPs and 15 LTSs submitted by October 2020 using an interrater method. This paper focuses on energy sufficiency policies and measures in the transport sector.
We found a total of 236 sufficiency policy measures with more than half of them (53 %) in the transport/mobility sector. Additionally, we found 41 measures that address two or more sectors (cross-sectoral measures). From the explicit sufficiency measures within the transport sector, 82 % aim at modal shift. A reduction of transport volumes is much less addressed. Countries plan to use mainly fiscal and economic instruments. Those are in many cases investments in infrastructure of low-carbon transport modes and taxation instruments. Plans on decarbonisation measures are also frequently mentioned. The majority of cross-sectoral measures are carbon taxes or tax reforms, also economic instruments.
On the one hand it is encouraging that Member States strongly emphasize the transport sector in their NECPs and LTSs - at least quantitatively and concerning sufficiency measures - because this sector has been the worst-performing in climate mitigation so far. On the other hand, the measures described seem not sufficient to reach ambitious climate targets, and we doubt that the presented set of policy instruments will get the transport sector on track to mitigate greenhouse gas emissions in the necessary extent.
Impact chains are used in many different fields of research to depict the various impacts of an activity and to visualize the system in which this activity is embedded. Research has not yet conceptualized impact chains specifically for energy sufficiency policies. We develop such a concept based on current evaluation approaches and extend these by adding qualitative elements such as success factors and barriers. Furthermore, we offer two case studies in which we test this concept with the responsible climate action managers. We also describe options for integrating these impact chains into different types of energy models, which are key tools in policy consulting.
Der Blick des Akteurs
(2009)
Achieving sustainability has become one of the fundamental goals of many urban transportation systems in the past two decades. The emerging concept of sustainability has developed enormous interests among researchers and practitioners to develop a sustainable transport system. While many have focused on developing an appropriate definition of a sustainable transport by measures and indicators of sustainability to assess if a transport system is moving towards or away from sustainability, many others have put forward different strategies to make a transport system sustainable. Defining sustainable transport and identifying indicators are important to make this concept more correct, focused, and measurable.
This study tries to measure and monitories urban transportation sustainability from viewpoint of anÿurban planner. The question comes out from the relation between urban transportation sustainability and usage of public transportation. How these two facts link to each other? Are there any logical relations between usage of public transportation and sustainable development? How we can define specific indicator for measuring sustainability of transportation or on the other words, how can we standardized indicator to measure and monitor the urban sustainable transportation?
For response, exceeding questions two cities are selected which have a similarity and differences in structure and data sets. Our approach is to draw upon a raft of suitable analytical techniques to find out the approach base for comparison of structure between different cities, and then to apply the examples to examine the degree to which specified policy targets might be met in the future. The analytical framework includes Descriptive statistics, correlation and Regression analysis, and application of sustainable transportation indicator for case studies distributions.
The techniques proposed to provide a starting point for that dialogue toward more appropriate policies and their monitoring. It can be concluded that the new approach of sustainable transportation indicator for measuring sustainability of transportation is highly correlated with selected variables, which indicates that the new indicator has meaningful applicability to be used as indicator for transportation certificate system. This methods can be used for measuring, monitoring, and evaluating the sustainability of urban transportation for different areas and used the results as a standardize indicator for transportation certificate system for comparing and ranking the transportation sustainability of different cities. In addition, the result of this study can be used as for monitoring and assessment of plan for (SUMP) Sustainable urban mobility planning.
Fossil independence and substantial reductions in CO2 emissions seem to be possible with 2nd generation biofuels. New technologies allow a full carbon-to-fuel conversion of non-edible plant parts such as straw or wood, and the cultivation of algae or salt-resistant plants uncouples bioenergy from food production. Nevertheless, impacts on biodiversity, global land and water use are widely unclear and their competitiveness with 1st generation biofuels and electric mobility is an open question. An interdisciplinary team of Empa, University of Zurich and the Wuppertal Institute of Climate, Environment and Energy evaluated the most sustainable production techniques and assessed their potential for our future mobility.
Energy and climate change
(2018)