The arena’s heating system is designed to capture that heat and transfer it to the ice. But, the arena’s heating system is not designed to handle the heat generated by the ice rink during the winter months. This heat is then released into the atmosphere, resulting in increased greenhouse gas emissions and contributing to climate change.”
The Problem with Ice Arenas and Climate Change
The St. Vital arena, located in Winnipeg, Manitoba, Canada, is one of the largest ice arenas in the country. However, its heating system is not equipped to handle the heat generated by the ice rink during the winter months. This heat is released into the atmosphere, contributing to climate change. The arena’s heating system is designed to capture the heat generated by the ice rink, but it is not designed to handle the increased heat during the winter months.
The arena is a large, 1,000-seat venue that hosts various events, including concerts, hockey games, and sports tournaments. The arena’s heating system is a complex network of pipes and ducts that circulates hot water throughout the facility. The system is designed to maintain a consistent temperature of around 20°C (68°F) throughout the arena, regardless of the external temperature. The system consists of a combination of steam and hot water boilers, which provide the heat energy needed to warm the arena. The steam boilers are fueled by natural gas and produce steam, which is then used to heat the hot water. The hot water boilers are fueled by natural gas and produce hot water, which is then used to warm the arena. The system also includes a network of insulated pipes and ducts that distribute the hot water throughout the facility.
The Opportunity for Heat Recovery
The arena’s heating system is a significant energy consumer, and capturing the heat that is wasted during events could provide a significant opportunity for energy savings.
According to the organization, the technology can also provide up to 80 per cent of a home’s heating needs.
Introduction
Ground source heat pumps (GSHPs) are a type of renewable energy system that harnesses the natural heat from the earth to provide warmth and cooling to buildings.
However, the upfront cost can be offset by the long-term savings of using a heat pump system.
Installing Heat Pump Systems: A Cost-Effective Alternative
Understanding the Benefits
Heat pump systems have gained popularity in recent years due to their ability to provide efficient and cost-effective heating and cooling solutions. These systems use refrigeration to transfer heat from one location to another, making them ideal for both residential and commercial applications.
Key Advantages
Overcoming the Upfront Cost Barrier
The upfront cost to install a heat pump system can be a significant barrier to adoption. However, this cost can be offset by the long-term savings of using a heat pump system.
Long-Term Savings
The St. Vital Minor Hockey Association supports studying the idea. Payments for the equipment would drop much lower if amortized over multiple decades, said Lohrenz.
The Benefits of Amortizing Equipment Payments
The St. Vital Minor Hockey Association has expressed support for studying the idea of amortizing equipment payments for minor hockey players. This concept has been gaining traction in the hockey community, with proponents arguing that it can help reduce the financial burden on families and make hockey more accessible to a wider range of players.
Reducing Financial Burden
One of the primary benefits of amortizing equipment payments is that it can significantly reduce the financial burden on families. Currently, many families are required to purchase equipment for their children, which can be a substantial expense.
The study, which is expected to be completed in 12 months, will assess the feasibility of using a ground-source heat-pump system to heat the arena.
The Study’s Objectives
The GEOptimize study aims to evaluate the potential of using a ground-source heat-pump system to heat the Sargent Park arena.
“It’s a significant investment, but it’s a necessary one,” he emphasized.
The Feasibility Study Process
A feasibility study is a crucial step in determining the viability of a project. It involves a comprehensive analysis of the project’s technical, financial, and environmental aspects. The study assesses the project’s potential for success, identifying potential risks and opportunities.
