Abstract
Despite the diversity of studies on global warming and climate change mitigation technologies, research on the changing role of CO2 in the industrial processes, which is connected with the introduction of circular economy principles, is still out of scope. The purpose of this review is to answer the following question: Is technogenic CO2 still an industrial waste or has it become a valuable resource? For this purpose, statistical information from the National Energy Technology Library and the Global CCS Institute databases were reviewed. All sequestration projects (199) were divided into three groups: carbon capture and storage (65); carbon capture, utilization, and storage (100); and carbon capture and utilization (34). It was found that: (1) total annual CO2 consumption of such projects was 50.1 Mtpa in 2018, with a possible increase to 326.7 Mtpa in the coming decade; (2) total amount of CO2 sequestered in such projects could be 2209 Mt in 2028; (3) the risk of such projects being cancelled or postponed is around 31.8%; (4) CO2 is a valuable and sought-after resource for various industries. It was concluded that further development of carbon capture and utilization technologies will invariably lead to a change in attitudes towards CO2, as well as the appearance of new CO2-based markets and industries.
Highlights
The problem of global warming has been widely discussed in the recent decades [1,2]
The results showed that despite the reduction in CO2 emissions, fossil-fuel-based energy generation is associated with other negative environmental impacts that must be taken into account
Significant reduction in CO2 emission was confirmed by Akash et al [15]; this study showed that the use of carbon capture and storage (CCS) in power generation affects construction expenditure, and the cost of electricity caused by the lack of additional economic effects
Summary
The problem of global warming has been widely discussed in the recent decades [1,2]. One of the key reasons is an exponential growth of technogenic greenhouse gas emissions, mainly CO2 .To slow this growth, many so-called global warming (climate change) mitigation technologies [3,4] are currently being implemented. Many so‐called global warming (climate change) mitigation technologies [3,4] are currently being implemented
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