Combined Heat & Power

Heat & Power: An Unbeatable Combination

The climbing costs of electricity, coupled with increasing power outages, have consumers and businesses both searching for options that are more affordable and reliable. Propane-powered combined heat & power (CHP) units are more than that — they’re also more efficient, slashing utility bills while producing far less harmful emissions, making it a better option for everyone.

Understanding Combined Heat and Power Systems

In the quest for energy efficiency and sustainable practices, combined heat and power (CHP) systems have emerged as a compelling solution. Also known as cogeneration, CHP systems represent a highly efficient method of generating both electricity and useful heat simultaneously from a single fuel source, typically propane or natural gas.

What is Combined Heat and Power (CHP)?

CHP systems operate by harnessing the heat produced during electricity generation, which is usually wasted in conventional power plants. Instead of discarding this excess heat, CHP systems capture it and repurpose it for hot water heating, space heating or cooling. This simultaneous production of electricity and thermal energy in a single, integrated system drastically improves overall energy efficiency, often reaching efficiencies of over 90%, far surpassing traditional power generation methods.

How Does Combined Heat and Power Work?

In a propane-powered CHP system, a generator is used to produce electricity. The heat produced during this electricity generation is recovered through a heat recovery system, which captures the waste heat. This recovered thermal energy can then be utilized for various purposes, such as space heating, hot water production, or powering industrial processes.

A Combined Heat & Power HomeAdvantages of CHP Systems:

Increased Efficiency: CHP systems significantly improve energy efficiency by utilizing waste heat that would otherwise be lost in conventional power generation.

Cost Savings: By using a single fuel source for both electricity and heat production, CHP systems can lead to substantial cost savings compared to separate generation methods.

Reduced Environmental Impact: Lower fuel consumption and reduced emissions make CHP systems an environmentally friendly option, contributing to a smaller carbon footprint.

Enhanced Reliability: CHP systems can offer greater resilience against power outages by providing on-site power generation and ensuring a continuous supply.

Versatility and Adaptability: CHP systems can be tailored to meet specific energy demands in various sectors, including residential, commercial, and industrial settings.

Applications of Combined Heat and Power

Residential Buildings: Providing electricity, hot water, and space heating.

Commercial Buildings: Powering office spaces, hotels, hospitals, and malls while meeting heating, hot water, and cooling needs.

Industrial Facilities: Supplying both electricity and steam for manufacturing processes in industries like chemical, food processing, and paper production.

CHP Systems Eliminate Efficiency Losses and Lead to a Reduced Carbon Footprint

Propane-powered CHP and micro-CHP units far outpace the efficiency and emissions of traditional heating or water-heating systems, surpassing energy savings from even the most efficient boilers. As the world strives for cleaner energy solutions, CHP systems offer a promising avenue leading to significant economic, environmental, and societal benefits in the pursuit of a more sustainable future.

Commercial Propane compared to micro combined heat and power home