Scaling up concentrating solar thermal technology in China
Résumé
More than 1300 GW new generating capacity will be added in China's power sector over the period 2005-2030 under the BAU scenario in [1], even higher than the total installed capacity in the United States to date. China's industrial and service sectors are expected to maintain rapid development rate over the next decades, driving up the demand for electric power and heat. However, China's power and industrial process heat generation are heavily relying upon coal-fired thermal power plants resulting in tremendous rise in greenhouse gas emissions. Clean technology such as concentrating solar thermal (CST) needs to play a more important role in power and heat generation in China to accelerate the decarbonisation in the power sector and commercial and industrial process heat generation cost-effectively. This paper attempts to explore the opportunity and challenge of development and deployment of CST in China from both technical and socioeconomic analysis perspectives. It is argued that rapid deployment of CST in China will contribute to enabling sustainable energy supply and environmental securities, as well as improved economic performance in new technology innovation in Asia Pacific area over the next decades. Supportive policy framework should be set up to encourage scaling up CST industry. The success of deployment of CST technology will also allow Chinese power and heat generators to strengthen their competitiveness in the context of intensified global constraint of carbon emissions. Institutional innovation and policy instruments for scaling up this technology and the enabling conditions of successful implementation are also investigated.
Mots clés
Carbon emissions
China
Clean technologies
Concentrating solar thermal
Economic performance
Electric power
Environmental security
Generating capacity
Generation cost
Global constraints
Heat generators
Industrial process heat
Installed capacity
New technologies
Policy framework
Policy instruments
Power sector
Rapid development
Scaling-up
Service sectors
Socioeconomic analysis
Solar thermal
Solar thermal technology
Sustainable energy supply
Technology deployment
Thermal power plants