We ensure this by putting in place the most rigorous procedures. We believe that maintaining high standards of health, safety and environmental management are an integral part of business performance and are given equal standing with other business objectives. In our eyes, without this approach, you cannot be world class.
We are continually looking to reduce our carbon footprint in compliance with environmental legislation. In essence, using less energy and having less environmental impact to complete the work that we do. We are committed to maintaining environmental standards through initiatives such as zero emissions to landfill and ensuring everyone works in line with our health, safety and environmental policy.
To demonstrate our ongoing commitment to improving health and safety standards and performance, Goodwin International enters the Royal Society for the Prevention of Accidents (RoSPA) awards scheme on an annual basis. This highlights what we feel is our duty to continually improve our health and safety system by setting new goals and targets.
We provide documentary evidence and lifetime quality records commensurate with the contractual requirements and market sector. Goodwin understands that the value of quality assurance and evidence of compliance is of a firm equal to the physical manufacture of a component in a highly regulated, technology and specification driven industry. It is quality assurance and control which sets Goodwin apart from its competitors.
The product range offered by Goodwin has now been extended to include a selection of high performance Axial Isolation and Control Valves.
Several years of Research, Design and Testing has been carried out to bring these products to market, with international patents pending for innovative design features.
Axial Isolation & Control Valves are used in highly demanding applications where tight shut off, high reliability, fast opening / closing and precise control are desired. Goodwin Axial Isolation & Control Valves represent a highly effective and cost efficient alternative to current designs available to the market.