Reducing Greenhouse Gas Emissions by Canada’s Oil and Gas Industry

A video clip titled Canada’s Oil and Gas Industry is Committed to Reducing Greenhouse Gas (GHG) Emissions was made to emphasize the industry’s initiatives to reduce gas emissions to zero by 2050. The film examines the numerous steps being taken to reduce how much oil and gas production impacts the environment. The basic thesis of the video is that Canada’s oil and gas sector is aggressively working to minimize the release of greenhouse gases with cutting-edge technologies and environmentally friendly procedures. The film shows several initiatives, including cutting back on venting and burning, putting money into carbon capture and storage, and relying more on clean energy sources. This essay will explore the assertions made in the movie, look at the industry’s initiatives to cut CHG emissions, as well as evaluate the viability and efficacy of these actions in resolving global catastrophic climate change.

The video emphasizes the sector’s initiatives to lower CHG production and offers a favorable assessment of its dedication to a sustainable environment. Concerns over the effects of the oil and gas company on the atmosphere, particularly in connection to the release of greenhouse gases, have grown for the past several years. One of the largest in the world, Canada’s oil and gas sector has a considerable impact on worldwide pollution (Canadian Energy Centre, 2022). As a result, there is more and more pressure on the sector to cut emissions and move toward sustainable practices. The documentary outlines the industry’s reaction to these issues and emphasizes its dedication to lowering GHG emissions through technological advancements, partnerships with Indigenous peoples, as well as support for climate policy. The video is pertinent to conversations about how the oil and gas industries contributes to resilience and the possibility of industry-led actions to address environmental problems. The industry is committed to zero emissions by 2050 using carbon capture and storage utilization technologies and this strategy’s phase approach is discussed below.

Canadian oil and gas companies have entered into commitments to reach net-zero production of CHG. For the economy to become net-zero, its production of greenhouse gases must either be zero or entirely offset by reductions. The energy infrastructure that supports the GDP will need to undergo a complete change. Effective carbon capture and utilization storage (CCUS) techniques and approaches start with a comprehension of emission attributes (Raza et al., 2019). The Canadian oil and gas company monitors all greenhouse gas release, including methane, hydrogen fluorine, carbon dioxide, perfluorocarbons, nitrous oxide and sulfur hexafluoride. The initial phase in CCUS is Carbon dioxide collection, which can be accomplished using various methods such as oxidizing burning, post-combustion capture, or pre-combustion capture. Once it has been gathered, Carbon dioxide can be moved via piping to a long-term storage location, often deep in the earth’s sedimentary layer.

Carbon dioxide can also be used for various things, such as improved oil recovery, which entails injecting it into oilfields to improve the quantity of oil that can be retrieved. Additional applications for Carbon dioxide include making construction equipment, energy, pharmaceuticals, and even as a source of bioenergy based on microalgae. Carbon capture and utilization storage has the possibility of significantly minimizing emissions of greenhouse gases, particularly in sectors where carbon output is hard to prevent or reduce (Raza et al., 2019). Examples of these areas include cement and steel production and areas where renewable energy sources might be harder to get or more expensive.

Carbon capture and utilization storage technology is still in its early phases, and several issues need to be resolved, including high costs, restrictive legislative and regulatory structures, and a need for widespread acceptability. Despite various difficulties, CCUS has picked up steam recently, and several initiatives have been started globally to show that the technique is feasible. In order to scale up the science and render it an essential component of the shift to a low-carbon economy, authorities, businesses, and academic institutions are also investing in development and research to make CCUS increasingly practical and affordable.

The author uses cows, plants, and heat sources to demonstrate the natural and manufactured sources of GHGs. The film uses facts to prove that the oil and gas industry is devoted to lowering greenhouse gas release into the atmosphere. For instance, it shows statistics that since 2009 20% of emissions per barrel have dropped. In addition, the film employs visuals to demonstrate the impacts of global warming and the efforts the oil and gas-manufacturing sector is making to minimize pollution. To illustrate the industry’s investment in sustainable energy, it displays solar panels and wind turbines (Canadian Energy Centre, 2022). This tactic makes use of the ethos appeal to convince the audience by demonstrating the speaker’s authority and subject-matter knowledge.

Moreover, it uses the worldwide map to demonstrate Canada’s oil and gas determination to reach zero emissions by 2050. The components of video that increase its effectiveness and persuasiveness are ethos, logos, and pathos. Whereas pathos appeals to the intended audience, logos communicate their reason, and ethos creates the speaker’s credibility. The video succeeds in fulfilling its goal and effectively conveying its information. It builds confidence, engages with emotions, supports its point with statistics, and incorporates images.

References

Canadian Energy Centre. (2022). Canada’s oil and gas industry is committed to reducing GHG emissions. wyoutube.com. Web.

Raza, A., Gholami, R., Rezaee, R., Rasouli, V., & Rabiei, M. (2019). Significant aspects of carbon capture and storage – A review. Petroleum, 5(4), 335–340. Web.