Advantages and Disadvantages of Online Games

Online Games are video games that utilize an Internet connection to enable players to compete against or collaborate with other gamers. They can be played through a variety of devices such as desktops, tablets, or mobile phones. Online games may be free to play or monetized with in-game items that can be purchased using real money. Many of the most popular online games are massively multiplayer online role-playing games (MMORPGs). Read more:

Advantages: Online Gaming is a fun way to socialize with friends and family members. It can also improve children’s social skills by encouraging them to work together to achieve a goal. Additionally, it can help develop problem-solving and concentration skills. In addition, it can promote creativity by encouraging players to think outside the box. However, it is important to monitor how much time is spent playing online games so that they do not interfere with school or other activities.

Escaping Reality: The Appeal of Online Gaming During Lockdowns

Disadvantages: Over-indulging in online gaming can be harmful to a person’s physical health. For example, spending long periods of time sitting in one position can cause back problems or eye strain. It is also important to take regular breaks when playing. Furthermore, concentrating on a single task for long periods can lead to depression or low self-esteem.

Virtual group games online are a great icebreaker for teambuilding events and an easy way to bring together disparate groups of coworkers. With a simple setup and games that allow you to shout or chat your answers, these interactive games can be enjoyed by even the most shy of participants!


PST’s Oxygen Analyzers Are Used in a Variety of Industrial Processes

oxygen analyzer

Oxygen analyzer is critical to life and integral to combustion, but it’s also a powerful oxidizing agent that can cause a wide range of problems. To prevent oxidizing conditions, industrial processes rely on oxygen analyzers to monitor oxygen levels. From protecting against leaks in glove box environments to ensuring the purity of process gas, oxygen analysis is key for industries that rely on safety and efficiency.

PST offers several types of oxygen analyzers to meet the needs of different applications. These include oxygen monitors that can measure trace oxygen levels in modified atmosphere packaging (MAP) and other containers, as well as flue gas oxygen monitors that are designed for use in furnace applications such as iron and steel, electric power, oil and petrochemical, ceramic, and pulp and paper production.

Breath of Precision: Demystifying Oxygen Analyzers for Health and Industry

Both monitors utilize industry-proven zirconium oxide sensors to provide reliable and accurate oxygen measurements in harsh environments, including those with high temperatures and aggressive chemicals. In addition, the sensors and components are field serviceable, reducing the need to remove and send the instrument back for repair.

The monitors feature a compact design that allows them to be placed in a variety of locations, making them easy to deploy and use. They also include a bypass flow meter, which ensures that the sample gas is not depleted, and a flashback arrester to prevent contamination in hazardous areas. They can be used with gases ranging from groups IIB to IIC, and the probes are available in different lengths, depending on application needs.


Smart Building Inspections – KK Forges

KK Forges Pte Ltd, which was founded in 2015, uses a combination of AI and IoT sensing technology to inspect buildings for hazards and other issues. The company says its process is less expensive than traditional inspections, which are typically based on photos or video footage. It is also said to be faster and more accurate, with data available in real-time. The company is backed by Alibaba Entrepreneurs Fund and Hong Kong’s Innovation and Technology Venture Fund.

Despite the wide use of smart technologies in construction, integrating those devices with the quality inspection work process remains a challenge. This study aims to solve this issue by proposing a new work process model linked with advanced devices in the construction quality inspection phase.

From Data to Action: Insights into KK Forges’ Approach to Smart Building Inspections

The proposed add-in system for quality inspection works within the BIM system RevitTM and consists of four items: an inspection form, quality data, a quality tracking tool and a group messenger. It provides a digitalized quality inspection process that can replace simple and repetitive inspection work that causes low productivity in construction processes. It can also reduce the error rate of inspection work by enhancing accuracy in determining pass/fail judgments based on smart technology.

The case study of tile work illustrates the effectiveness of this new process model. For example, a smart device acquires a thermal image to verify the amount of mortar filling in the tile work. This information is then uploaded to the BIM server and compared with the design quality criteria. If the results do not match, a rework is required. However, if the results match, it is confirmed that the work has been completed within the quality standards.