Environment & Sustainability

We believe that we all share a responsibility to protect our planet.

We have an ongoing commitment to minimise the impact our operations have on the environment with methods that are socially responsible, scientifically based and economically sound.

Our commitment also covers all of our products and services. Axis’s closure systems are designed to safeguard the environment by ensuring the integrity of the container. Whatever the product, a Axis Met Tech closure reduces the risk of spillage and protects the environment from pollution.

Since the establishment the establishment, Axis Met Tech has been a strong supporter of manufacturing, operating, and distributing in an environmentally and socially sustainable way. We strive to act as a leader in practicing sustainability and in facing today’s environmental challenges.
Through partnerships and implementing best practice, we aim to reduce the impact of our operations on the environment and our people. We divide our sustainability practice into 3 interconnecting categories:

Product, Distribution and Manufacturing

Product: Pipes & Tubes and Flanges & Fittings with a Lasting Value

It is not a coincidence that Axis Met Tech’s main product focus is on fluid components made out of steel. Even though the production of steel is energy costly, the product lifetime and the recyclability is considered environmentally friendly. According to several international forums, most of the steels are highly recyclable. Even after decades of use, steel can be recycled again. Besides being a durable material, this material is considered by environmental agencies, to be ideal for pipes and fittings that come in contact with drinking water.

Distribution, Product and Information: Online, Shipments, Supply-Chain

Axis Met Tech is your direct supplier of steel products. We have reduced the supply chain and have made unnecessary deliveries and shipments redundant. In the past, products were sent across globe, from warehouse to warehouse, until the products reached the end-client. Axis Met Tech is direct: directly from production we distribute to the end client. We utilise economies of scope and scale, to ship items from production facilities to our European central warehouse. Axis Met Tech aims to produce OEM-products regionally. We also partner with freight forwarders that uphold our promise to make our distribution environmentally and socially sustainable. While being environmentally sustainable in regards to physical distribution is important, we also consider the importance of our data distribution.

Manufacturing: Environment & Social Standards

Besides following the general standards of ISO 14001:2005, we highly encourage our partner factories and staff to daily challenge the way we produce, in order to lead in sustainability. Large investments are made, and “not in the distant future” Axis Met Tech can offer a CO2 neutral Press fitting made of stainless steel. International organisations and Economic World Forums provide excellent instructions on how we can solve the current issues. Nevertheless, we depend on our partners and staff, to apply these. Further investments need to be made and ideas need to be continually challenged and improved.

At Axis Met Tech

We are aware that we operate in an interdependent environment. Our operation influences many different stakeholders. Sustainability inregards to the environment and social responsibility is our key mission in 2024 and for the coming years.

We are committed to the following:

• Provide a safe and secure work environment at all times.
• Use our resources wisely and efficiently and continuously look to reduce our consumption of energy and natural resources while also reducing our waste stream.
• Comply with or exceed all regulations that are required by our government agencies, local and state laws.
• Properly train and educate our employees so that they will be informed about any potentially hazardous conditions when operating equipment.
• Meet and exceed all customer quality and performance requirements to insure their success as well as our own.
• Recognise the role we play in protecting our planet and its resources and always strive to make this world a better place.

It is paramount to us as the keepers of this world to do our best every day to be responsible for the opportunities we have received in life and be proud that we have the honour and ability to preserve the future for our families, their friends, and all those who are able to take some comfort in a clean, healthy, and prosperous planet.

Code of Ethics

Our code of ethics is the expression of the commitment of all Axis Met Tech’s collaborators to maintain the highest standards of performance and an optimal conduct, guiding the way we do business with honesty, ethics, professionalism, and the company’s values. Our stakeholders are clients, collaborators, suppliers, shareholders, competitors, authorities, creditors, and community.

Cleaning Up The Steel Industry: Reducing CO2 Emissions with CCUS

References stays that the amount of CO2 emissions from steel manufacturing is almost double the amount of steel created: 1.85 tonnes of carbon per 1 tonne of steel. If steel were a nation, it would be the 5th largest producer of carbon emissions in the world!

The future of the steel industry needs to include a plan that utilises carbon capture technology (CCUS) to reduce fossil fuel carbon emissions and cut the carbon footprint of steel.

How the steel industry can prepare for net zero and reduce its CO2 emissions with CCUS technology

How does steel production produce carbon?

Steel and iron production is reliant on coal, both as a feedstock and a fuel. Unlike cement, emissions arise at different points in the steel production process. Steel mills have a number of furnaces and subunits involved in the production process that emit carbon dioxide. The largest of these are the blast furnaces and the on-site power plant.

How much carbon is produced by the steel production process?

Steel production is an energy-intensive process as it requires high temperatures to transform iron ore into steel. The energy and heat from the processes come from fossil fuels, which is primarily coal. The use of fossil fuels means that the average CO2 emissions from steel production is about 1.85 tonnes CO2 per tonne of steel produced.

How much carbon is produced every year by the steel sector?

In fact, between 7-9% of all fossil fuel-based CO2 emissions are derived from the steel industry. The amount of steel produced in 2018 was 1.8 billion tonnes, which equates to about 3.3 billion tonnes of CO2 emissions. If we counted the emissions of the steel industry as if it were a nation, it would rank as the 5th largest in the world.

How does Carbon Clean technology work in a steel plant?

The complexity of the steel production process provides a variety of challenges. The main challenge for steelworks is choosing the most effective site to install capture technology as there are multiple emissions sources on-site. A number of solutions are possible to bring steel to net zero.

How much carbon would be reduced by having Carbon Capture technology in a steel plant?

In the long run, technological changes to the steelmaking process can reduce emissions by producing clean steel. However, this technology is still a way off from being commercialised and will require large modifications to existing steelmaking infrastructure.

How can a steel plant reap the cost benefits of carbon capture?

The best way to decarbonise existing steel plants is to use CCUS on the blast furnace to capture and store or utilise the carbon dioxide. In some cases, this carbon dioxide can be utilised with water and a plant waste known as slag, to produce construction material. Valorisation of captured carbon in this way can provide an additional revenue stream for steelmakers.

Axis Met Tech sets 2050 group carbon emissions target of net zero

Axis Met Tech as a company announces a group-wide commitment to being carbon neutral by 2050, building on the commitment made in 2022 for its Indian Supply Partners’ business to reduce emissions by 27% by 2030, and be carbon neutral by 2050.

There is not a doubt that if the world is to achieve net zero by 2050 it will require all parts of the economy in all regions of the world to contribute. As the key player in steel industry, we believe that we have a responsibility to lead the efforts to decarbonise the steel-making and forging process, which today has a significant carbon footprint.

Steel will remain a vital material for our world and indeed is the most circular of all materials. Our challenge is to be able to make steel using clean energy technologies* on a commercial scale, while remaining competitive in the global steel industry.

We are actively working with out supply partners on various pilot technologies which have excellent potential. We constantly exchange ideas with our supply partners to implement DRI-EAF facility in the actual steel-making process.

Hydrogen has a lot of potential but given the significant transition cost, we also believe in working on solutions for the traditional integrated route. This essentially follows the bio-energy, carbon capture and utilisation and storage route, which as stressed by both the IPCC and the IEA will be critical to achieving net zero by 2050. What is also interesting about this route is that it has the potential not only to provide carbon neutral steel, but also other products that will help the chemical industry make plastics in a carbon neutral way.

Critical to turning the target into reality will be policy to enable steel to remain competitive while decarbonising – particularly given every region of the world is moving at a different pace. We intend to actively engage with governments to chart a way forward that enables the steel industry to make meaningful progress through carefully designed policy that protects against carbon leakage.

Axis Met Tech has identified two low-emissions steelmaking routes, both of which have the potential to lead to carbon-neutral steelmaking:

The Hydrogen-DRI route, which uses hydrogen as a reducing agent. The Smart Carbon route is centred around modifying the blast furnace route to create carbon neutral steelmaking through the use of circular carbon – in the form of sustainable biomass or carbon containing waste streams – and carbon capture and use (CCU) and storage (CCS). ArcelorMittal is well advanced on constructing several commercial-scale projects to test and prove a range of Smart Carbon technologies. Start-up target for key projects is targeted in 2030 by our steel supplier.

While both routes have the potential to deliver carbon-neutral steel by 2050, we believe that Smart Carbon can deliver results sooner, and make a meaningful contribution to CO2 emissions reduction this decade, while industrial scale production from the Hydrogen-DRI route is unlikely to be significant before 2030 due to the current high costs.

The Company has also previously outlined the policy framework environment it believes is required for carbon-neutral steelmaking to become a reality, which includes:

A global level playing field which avoids the risk of carbon leakage through mechanisms such as green border adjustments
Access to abundant and affordable clean energy
Policies which support the development of the necessary clean energy infrastructure
Access to sustainable finance for low-emissions steelmaking, and
Policies which accelerate the transition to a circular economy.
Axis Met Tech will set out further detail in support of its 2050 net zero target in its second climate action report, which is anticipated to be published before the end of 2030.

Axis Met Tech share ideas of three clean energy vectors: clean electricity, circular carbon, and CCS with their supply partners.