As a leading provider of civil engineering firms in Houston, TX, that specializes in the planning, designing, and constructing of infrastructure projects, we have experienced engineers, designers, and project managers with a proven track record of delivering high-quality solutions that meet our client’s unique needs and requirements. Whether looking for a residential civil engineer or construction engineering services, we are always here to serve your needs.
Prime Energy is committed to finding and bringing the best technologies to provide innovative civil engineering services. Several issues are getting addressed with CO2 emissions in the waste, plastics, agricultural, and utilities sectors.
To solve many issues with CO2 emissions in the utilities, Plastics, agriculture, and landfill industries.
Fertilizers are crucial for the world to produce enough food to feed itself; fertilizer production and use also contribute substantially to climate change.
Participants grapple with this dilemma at COP27, the 27th Conference of the Parties to the United Nations Framework Convention on Climate Change.
The climate impact of the fertilizer industry is significant—80% of all ammonia manufactured today to produce nitrogen fertilizers.
This ammonia is traditionally manufactured with natural gas, significantly impacting global greenhouse gas (GHG) emissions.
Approximately two tons of carbon dioxide (CO2) are released into the atmosphere for every one ton of ammonia manufactured, making ammonia manufacture responsible for 1.3% of all CO2 emissions.
Further, CO2 is not the only GHG related to the fertilizer industry, with researchers also finding that nitrogen fertilizers release significant amounts of atmospheric nitrogen oxides during production and use.
We are Your Trusted Partner for Civil Engineering Services
Prime Energy takes pride in becoming a trusted partner engineering firm in Houston, TX. We offer various services, including feasibility studies, project planning and design, construction supervision, green infrastructure design, disaster preparedness and response planning, and more. We have Texas civil engineers, designers, and project managers who work closely with you to understand your needs and requirements and develop customized solutions that meet them.
We offer a variety of civil, pavement, and water/wastewater engineering services, emphasizing creating creative designs that are cost-effective and focused on long-term success. To do this, we carefully construct the project design criteria based on feedback regarding the objectives and goals of the customer.
Decarbonization of the Global Fertilizer Industry: A Critical Step Towards a Sustainable Future
The fertilizer industry, like all industries, is exposed to significant climate-related risks and drivers. The transition and physical risks of climate change are becoming harder to ignore.
There is pressure on fertilizer companies from investors, lenders, foreign customers, and foreign and domestic governments to shift to lower carbon products and disclose climate-related risks, share GHG data, targets, and strategies related to decarbonization and the low-carbon transition, and explain approaches to climate-related risk management. Lack of compliance can limit access to capital.
Achieving Decarbonization in the Fertilizer Industry: Key Factors for a Sustainable Future
Several significant factors can contribute to the reduction of fertilizer emissions.
These include:
- Implementing Best Available Technologies (BAT) within existing assets, allowing energy efficiency improvements and reductions in nitrous oxide emissions.
- Replacement of some or all of the natural gas feedstock with green hydrogen to remove the carbon dioxide emissions from fertilizer production processes.
- Alternatively, carbon dioxide emissions from conventional production reduce by using carbon capture and storage technology.
More efficient use of fertilizers through the utilization of inhibitors and controlled-release fertilizers, improvements in irrigation, crop rotation, and other agricultural management practices.
These technologies and other measures that reduce emissions from fertilizers must accompany a supportive national policy framework and a level playing field with global initiatives.
The United Nations’ Paris Agreement and its net zero pathway underpin many government and private sector climate initiatives.
The European Union’s proposed Carbon Border Adjustment Mechanism (CBAM) would impose a green standard on imported fertilizers exceeding the GHG emissions threshold established for producers within the EU.
The United States Inflation Reduction Act provides tax credits related to clean hydrogen and carbon capture and storage that may influence supply chain choices in fertilizer feedstock options, encouraging low-carbon fertilizer production and making the US an attractive investment destination for low-carbon fertilizer production.
However, the industry must also consider specific national circumstances to decarbonize successfully. It is where an action plan linked to the vision comes in.
Climate Risks and Decarbonization: How the Vision Will Support the Management of climate risks
Industry: To help identify what level of decarbonization they will target, when, and the technical solutions they need to implement.
Government: It identifies the enabling policies required to support decarbonization.
Investors: To identify financing opportunities aligned with decarbonization ambitions and develop financing solutions that complement financial support from the government and industry.
Who will be involved in the implementation of the next steps?
To ensure the vision aligns with the expectations of industry, government, and investors, stakeholders convened a steering committee to oversee activities and outcomes. The committee comprised participants from the fertilizer and chemicals industry, government ministries, the USA and its territories, investors, and international organizations.
What’s Next for Our Future
The next phase of the decarbonization plan will be the development of a detailed low-carbon pathway and an action plan for building a climate-resilient future.
This phase will engage stakeholders to conduct an in-depth risk assessment and detailed appraisal of USVI’s actual fertilizer sector emissions data and related options for decarbonization.
This low-carbon pathway is a pre-condition for any financing to be in place.
Successful implementation of this low-carbon pathway will require action and collaboration across the value chain.
The fertilizer industry, agribusiness, farmers, government, investors, and industry associations must all play their part.
Helping and Inspiring businesses around us
We aim for the vision developed for one of the USA civil engineering companies to help inspire and guide businesses in other countries in formulating their visions in the nitrogen fertilizer industry and other sectors that need decarbonization.
The urgency to act now and tackle the challenge of climate change has never been more accurate. Implementing low-carbon strategies and addressing climate risks will allow industries to be ambitious, to be leaders, to be sustainable businesses, and to keep their competitive advantage in the global market.