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1 – 10 of over 8000Depending on the adopted principles of their domestic energy policy, individual countries responded in different ways to the information coming in from Japan. The majority of…
Abstract
Depending on the adopted principles of their domestic energy policy, individual countries responded in different ways to the information coming in from Japan. The majority of European countries having atomic power stations recommended inspection of the installations, particularly of those of older types. Discussion concerning the safety of nuclear installations also flared up. Opponents of the atomic power industry and environmentalists, asexpected, pointed to a need to lean energy production toward so-called renewable energy sources. This chapter explores public debate on the planned construction of nuclear power station in Poland in the aftermath of the Chernobyl and Japanese nuclear reactor explosions.
Weiwei Liu, Jingyi Yao and Kexin Bi
Nuclear power is a stable and reliable energy source that can improve energy structure while reducing carbon emissions, which is of great significance for environmental protection…
Abstract
Purpose
Nuclear power is a stable and reliable energy source that can improve energy structure while reducing carbon emissions, which is of great significance for environmental protection and combating climate change. As a unique industry, it is facing rare development opportunities in China and has broad market prospects. However, the characteristics of technical difficulty, loose organizational structure and uneven regional distribution limit the expansion of the nuclear power industry. This paper aims to a better understanding of the accumulation process for innovation capability from the perspective of network evolution and provides policy guidance for the market development of the nuclear power industry (NPI).
Design/methodology/approach
Methodologically, social network analysis is used to explore the co-evolution of multidimensional collaboration networks. First, the development and policy evolution of the NPI is introduced to divide the evolution periods. Then, the authors identify and analyze the core organizations, technologies and regions that promote nuclear power patent collaboration. Furthermore, three levels of collaboration networks based on organizations, technologies and regions are constructed to analyze the coevolution of patent networks in China’s NPI.
Findings
The results show that nuclear power enterprises always play the foremost role in the organizational collaboration network (OCN), and the dominance of foreign enterprises is replaced by Chinese state-owned enterprises in the third period. The technology hotspot has shifted from nuclear power plant construction to the control system. The regional collaboration network was initially formed in the coastal areas and gradually moved inland, with Guangdong and Beijing becoming the two cores of the network. The scale of three collaboration networks is still expanding but the speed has slowed down.
Originality/value
In response to the pain points of the NPI, this research focuses on multidimensional collaborative innovation, investigates the dynamic evolution process of collaborative innovation networks in China’s NPI and links policy evolution with network evolution creatively. The ultimate result not only helps nuclear power enterprises integrate innovative resources in complex environments but also promotes industrial upgrading and market development.
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This chapter argues that the concept of metagovernance offers an alternative to multi-level governance (MLG) for understanding how policy is delivered through complex networks…
Abstract
Purpose
This chapter argues that the concept of metagovernance offers an alternative to multi-level governance (MLG) for understanding how policy is delivered through complex networks. Whereas MLG portrays the state as a diminished entity, metagovernance argues for a strong, capable state that can govern through the deployment of policy tools. The chapter identifies and evaluates how policy tools are selected to realise the strategic objectives of government.
Methodology/approach
A critical case methodology is employed. Nuclear power is held to be a most difficult test for the British government’s ability to metagovern. The empirical data was collected from in-depth qualitative interviews conducted between August 2008 and July 2013.
Findings
The chapter shows that the British government’s metagovernance efforts are informed by the risks that would-be developer face. The British government is shown to have some ability to practice metagovernance but the complexities of nuclear power and the existence of a MLG structure create risks that government cannot overcome. It is also observed that in nuclear power programmes, the risks of construction cost overruns and electricity price fluctuations have the greatest impact on the calculations of would-be developers.
Research implications
The findings offer insight into the limits of government capacity in the face of networks and claims of continued state power. The chapter links together the literature on risk and the emergent literature on metagovernance. It is shown that institutional risks in the form of political opportunism are ever present and cannot be easily overcome.
Practical implications
Government are often called upon oversee difficult projects that are delivered by commercial actors. The findings indicate how governments might approach the task and point to a need for greater sensitivity to the nature of the project itself.
Social implications
The empirical results show that to moderate risk, government has tended to adopt very technocratic policies that limit wider democratic consultation in favour of working directly with commercial actors.
Originality/value
The chapter presents a detailed analysis of government decision-making in a highly controversial area of public policy – nuclear power.
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Annika Beelitz and Doris M. Merkl-Davies
The purpose of this paper is to examine a case of companies cooperating with the State to prevent a public controversy over nuclear power following the Fukushima disaster and…
Abstract
Purpose
The purpose of this paper is to examine a case of companies cooperating with the State to prevent a public controversy over nuclear power following the Fukushima disaster and achieve mutually beneficial policy outcomes. It analyses the private and public communication of pro-nuclear corporate, political and regulatory actors.
Design/methodology/approach
Drawing on the political economy theory, the study examines how actors mobilised power by accessing an existing social network to agree a joint public communication strategy in order to ensure public support for the continuation of nuclear power generation in the UK. It traces discursive frames from their inception in private communication to their reproduction in public communication and their dissemination via the media.
Findings
The study provides evidence of pro-nuclear actors cooperating behind the scenes to achieve consistent public pro-nuclear messaging. It finds evidence of four discursive frames: avoiding knee-jerk reactions, lessons learned, safety and nuclear renaissance. In combination, they guide audiences’ evaluation of the consequences of the Fukushima disaster for the UK in favour of continuing the commercial use of nuclear energy.
Originality/value
The private e-mail exchange between pro-nuclear actors presents a unique opportunity to examine the mobilisation of less visible forms of power in the form of agenda setting (manipulation) and discursive framing (domination) in order to influence policy outcomes and shape public opinion on nuclear energy. This is problematic because it constitutes a lack of transparency and accountability on part of the State with respect to policy outcomes and restricts the civic space by curtailing the articulation of alternative interests and voices.
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The national governments of the European Union (EU) are finding it increasingly difficult to provide their populations with cheap and reliable sources of electricity. There is a…
Abstract
Purpose
The national governments of the European Union (EU) are finding it increasingly difficult to provide their populations with cheap and reliable sources of electricity. There is a highly controversial technology available within the EU which could overcome this problem – nuclear generated electricity. The purpose of this article is to question the extent to which it is possible to reconcile the views of those citizens who object to the use of nuclear electricity with views of those who support the use of nuclear electricity as a competitive, sustainable and secure electricity supply within an open and competitive European energy market.
Design/methodology/approach
This article adopts an inter‐disciplinary approach to the analysis of the issues.
Findings
Political, economic and environmental pressures are combining to constrain the opportunities for national governments to enable citizens’ preferences with regard to the nuclear sector to be maintained. What is argued in the article is that all the tools which are available to the EU to overcome any lack of democratic decision making in the nuclear sector must be utilised to their full potential, including the legal framework provided by the often overlooked EURATOM Treaty.
Originality/value
The research will be of value to academic lawyers and political scientists investigating the problematic relationships which exist between the national and supranational levels of governance in the EU.
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The article aims to explore the potential for pebble‐bed high‐temperature gas reactor (HTGR) technology to meet possible future energy shortages.
Abstract
Purpose
The article aims to explore the potential for pebble‐bed high‐temperature gas reactor (HTGR) technology to meet possible future energy shortages.
Design/methodology/approach
The historical evolution of nuclear power is reviewed followed by empirical data that demonstrate the finite nature of oil and gas reserves. The characteristics of HTGR technology are then explored.
Findings
A pebble‐bed HTGR ameliorates nuclear waste disposal issues, does not disgorge large quantities of excess heat, is terrorist‐resistant, solves persistent problems concerning weapon proliferation, and is inherently safe.
Originality/value
The article makes the case for the US Department of Energy to take the lead in demonstrating a pebble‐bed HTGR plant to overcome industry reluctance to invest in this technology.
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Raghu Garud, Joel Gehman and Peter Karnøe
At different points in time, energy harnessed from nuclear technology for commercial purposes has been qualified as atoms for peace, too cheap to meter, unsafe, sustainable, and…
Abstract
At different points in time, energy harnessed from nuclear technology for commercial purposes has been qualified as atoms for peace, too cheap to meter, unsafe, sustainable, and emission free. We explore how these associations – between nuclear technology (a category used in a descriptive way) and qualities such as emission free (a category used in an evaluative way) – are materially anchored, institutionally performed, socially relevant, and entrepreneurially negotiated. By considering all these factors, our analysis shows that it is possible to understand how and why categories and their meanings continue to change over time. We flesh out the implications of these observations and suggest avenues for future research.
The purpose of this paper is to provide a review of the uses of robots in the nuclear power industry, with an emphasis on newer developments and applications.
Abstract
Purpose
The purpose of this paper is to provide a review of the uses of robots in the nuclear power industry, with an emphasis on newer developments and applications.
Design/methodology/approach
Following an introduction to the nuclear industry, this paper considers robotic applications in two areas: test and inspection and decommissioning. A range of products, applications and case histories are discussed.
Findings
It is shown that robots are used widely for test and inspection and decommissioning tasks. The majority are highly specialised and are frequently produced by specialist nuclear engineering companies. The main robotic test and inspection techniques are visual inspection, ultrasonics and eddy current and the use of robots reflects both the need to minimise operator exposure to radiation and the frequent difficulties in accessing critical components such as pressure vessel welds and steam generator tubes. Key decommissioning uses include handling and size reduction of contaminated materials, cutting and demolition.
Originality/value
This paper provides details of inspection and decommissioning robots in the nuclear power industry.
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Hans‐Holger Rogner, Deepak Sharma and Ahmed Irej Jalal
In recognition of the urgency of the global need to reduce CO2 emissions from the electricity sector, the purpose of this paper is to analyze the cost‐effectiveness of nuclear…
Abstract
Purpose
In recognition of the urgency of the global need to reduce CO2 emissions from the electricity sector, the purpose of this paper is to analyze the cost‐effectiveness of nuclear power and fossil‐fuel‐based power with and without the provision of carbon capture and storage in select, yet environmentally‐significant, group of countries – China, India, Russia, Korea, Pakistan, Poland, Argentina, Bulgaria and Romania.
Design/methodology/approach
The analyses are based on comparisons of electricity generation costs for nuclear and fossil‐fuel technologies. These costs, expressed in present value terms, are estimated on the basis of life‐cycle costs, employing detailed country‐specific technological and economic data and assumptions.
Findings
The analyses suggest that that the provision of carbon capture and storage is likely to result in a significant increase in the cost of electricity produced from fossil fuels (principally coal) in all countries represented in this paper. Such increase would completely erode the existing cost advantage enjoyed by fossil‐fuel power (in relation to nuclear power) in some countries (Argentina, Bulgaria, China, and India) and considerably enhance the existing cost‐advantage of nuclear power in other countries (Korea, Pakistan, Poland, Romania, and Russia).
Originality/value
Notwithstanding these limitations, the findings of this paper contribute appreciably to the emerging knowledge on this topic and provide useful foresight into the likely challenges of developing internationally acceptable policy prescriptions for mitigation CO2 emissions from the electricity sector. At a mundane, yet important, level, this paper establishes a platform on which further analyses could be built.
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Andrii Skrypnyk, Nataliia Klymenko, Semen Voloshyn, Olha Holiachuk and Oleksandr Sabishchenko
The purpose of this paper is to develop a methodology for assessing the effects of global and regional externalities that create traditional power generation industries and to…
Abstract
Purpose
The purpose of this paper is to develop a methodology for assessing the effects of global and regional externalities that create traditional power generation industries and to propose a transition to a tariff strategy taking into account these consequences. The main purpose of the research is to analyze the current wholesale electricity tariffs in the energy market of Ukraine and propose their assessment taking into account external effects for other sectors of the economy.
Design/methodology/approach
At the first stage, according to observations for 2004–2019 on the amount of pollution and the cost of agricultural products in some regions of Ukraine, which is provided in 2010 prices, the impact of hazardous emissions on the cost of agricultural products was analyzed in each region. The use of panel regression allowed to combine spatial and temporal studies (12 separate areas and time interval 2004–2019). To assess the external effects of heat generation, panel regression was used, which made it possible to combine spatial and temporal data on the impact of pollution on the efficiency of agricultural production and add regional losses of agricultural business to the cost of heat generation. This paper uses optimization models to maximize the function of public utility of electricity generation, making allowances for externalities.
Findings
This research assesses the negative externalities of Ukraine's energy and confirms the need for a global transition to a low-carbon economy primarily through climate finance. The analysis revealed the presence of various influences of the factor of regional air pollution and time. The hypothesis of the existence of a negative impact of local air pollution on agricultural production has been confirmed. An increase in emissions by 1,000 tons leads to an average decrease in regional agricultural production by UAH 84 million (at the prices of 2010).
Originality/value
The optimization problem of the ratio of different types of generation is set on the basis of maximizing the function of social utility of electricity generation, taking into account external effects. The authors presented an optimization model of electricity generation, which corresponded to the state of the energy market for 2019, provides an opportunity to assess the contribution of the inverse external effects of each electricity sector and to estimate external tariffs for each electricity generation sector.
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