Container Management Statistics 2023: Facts about Container Management outlines the context of what’s happening in the tech world.
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Top Container Management Statistics 2023
☰ Use “CTRL+F” to quickly find statistics. There are total 23 Container Management Statistics on this page 🙂Container Management “Latest” Statistics
- With 86% of IT executives intending to prioritize containers for future applications, the data paints a strong picture of the surge in container adoption.[1]
- 65% of IT executives are using third-party systems for container management to hasten adoption and more rapidly enjoy the advantages of containers.[1]
- 16.9% of the garbage produced from plastic containers and packaging was burned with energy recovery, with the remaining 69% being landfilled.[2]
- Only 52.1% of the trash produced from aluminum containers and packaging was landfilled, with the remaining 13% burned with energy recovery.[2]
- 14.3% of the trash produced from wood containers and packing was burned with energy recovery, with the other 58.8% being landfilled.[2]
- Roughly 5% of the trash produced from steel containers and packaging was burned with energy recovery, while the other 21.2% was dumped in landfills.[2]
- 7.4 million tons of containers and packing were burned; 21.5% of all combustion was done using energy recovery, 30.5 million tons went to landfills; 20.9 % of all landfills were done in 2018.[2]
- According to the EPA, 14.5 million tons of plastic packaging and containers were produced in 2018, accounting for around half of the production of MSW.[2]
- The EPA estimates that 9.8 million tons, or 3.3% of MSW output, of these glass containers, were produced in 2018.[2]
- The production of MSW from paper and paperboard packaging and containers reached 41.9 million tons in 2018, or 14.3% of the total generation.[2]
- About 2 million tons of plastic packaging and containers were recycled in 2018, which is 13.6% of the total quantity produced.[2]
- In 2018, 3.1 million tons of glass containers were reportedly recycled, or 31.3% of the total quantity produced.[2]
- Despite application backlog, technical debt, and financial restrictions, Gartner expects that up to 15% of business applications will operate in a container environment by 2024, up from less than 5% in 2020.[3]
- Gartner forecasts that by 2022, over 75% of worldwide organizations—up from fewer than 30% today—will use containerized apps in production.[3]
- Less than 2% of the over 500 million marine containers moved annually in the commerce supply chain, which accounts for more than 90% of global trade, are examined.[4]
Container Management “Other” Statistics
- The bulk of the other packaging was landfilled at 79.4%, while around 20.6% was burned with energy recovery.[2]
- Containers and packaging account for the majority of municipal solid waste, which accounts for 82.2 million tons or 28.1% of total production.[2]
- With 33.3 million tons produced in 2018, corrugated boxes accounted for the majority of all MSW output.[2]
- The EPA estimates that 1.9 million tons, or 0.7% of MSW output, were produced in aluminum packaging in 2018.[2]
- The EPA estimates that in 2018, 1.6 million tons, or 73.8% of production, of steel packaging were recycled.[2]
- An estimated 11.5 million tons of wood pallets and other wood packaging were produced in 2018, accounting for 3.9% of all MSW production.[2]
- 220,000 tons, or 29.3% of the generation, of HDPE natural bottles, such as milk and water bottles, were reportedly recycled.[2]
- The production of steel food cans, other cans, and steel packaging, such as strapping, steel barrels, and steel drums totalled 2.2 million tons, or 0.8% of the total MSW production, with most of that quantity being food product cans.[2]
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How Useful is Container Management
One of the primary benefits of container management is its ability to enhance software development workflows. Developers can easily package their applications along with all dependencies into a container, ensuring that the software runs consistently across different environments. This eliminates the infamous “works on my machine” problem and allows for more rapid deployment of code changes. Additionally, containers enable developers to experiment with new technologies or frameworks without affecting the underlying system, which can lead to faster innovation and reduced risk.
From an operations standpoint, container management simplifies application deployment and scaling. Containers provide a lightweight and efficient way to isolate applications and services, making it easier to manage resource allocation and improve performance. With container orchestrators like Kubernetes, organizations can automate the deployment, scaling, and monitoring of containers, reducing the burden on IT teams and enabling greater flexibility in managing complex applications.
Moreover, container management promotes the use of microservices architecture, which breaks down applications into smaller, independently deployable components. This modular approach allows for greater agility and resilience, as teams can update, scale, or replace individual services without affecting the entire application. By decoupling components, organizations can achieve higher availability and scalability, as well as enhance fault isolation and maintenance.
Security is another area where container management can provide significant benefits. Containers offer a more secure environment for running applications, as they are isolated from one another and have restricted access to system resources. By adhering to security best practices like image scanning, network segmentation, and least-privileged access, organizations can mitigate security risks and protect sensitive data.
From a financial perspective, container management can lead to cost savings by optimizing resource utilization and enabling more efficient use of infrastructure. Containers consume less resources compared to traditional virtual machines, allowing organizations to achieve higher density and utilization rates. Additionally, by leveraging cloud-based container services, companies can benefit from a pay-as-you-go model and avoid upfront investments in hardware and software.
Despite its many advantages, container management does come with its own set of challenges. Managing a large number of containers, monitoring performance, handling networking complexities, and ensuring data persistence are all considerations that organizations must address when implementing container management solutions. Furthermore, successful adoption of container technology requires a cultural shift towards DevOps practices, collaboration between development and operations teams, and ongoing training and education to keep pace with the rapid evolution of container technologies.
In conclusion, container management is a powerful tool that offers significant benefits in terms of software development, operations, security, and cost savings. While challenges exist, organizations that invest in container management stand to gain a competitive advantage by improving agility, scalability, and efficiency. As the container ecosystem continues to evolve, businesses must carefully evaluate their needs and resources to determine the most suitable container management solution for their unique circumstances.
Reference
- capitalone – https://www.capitalone.com/tech/cloud/container-adoption-statistics/
- epa – https://www.epa.gov/facts-and-figures-about-materials-waste-and-recycling/containers-and-packaging-product-specific
- gartner – https://www.gartner.com/en/newsroom/press-releases/2020-06-25-gartner-forecasts-strong-revenue-growth-for-global-co
- unodc – https://www.unodc.org/ropan/en/BorderControl/container-control/ccp.html