COMBINED HEAT & POWER


CHP: HOW AN HISTORIC TECHNOLOGY IS POWERING GROWING MARKETS


Despite being one of the oldest energy systems – dating back to 1881 – combined heat and power (CHP) is one of the most efficient, simultaneously providing electricity and heat energy with less


wasted electricity and fewer greenhouse gasses. Finning explains how it is a sustainable solution for today and tomorrow


G


enerating a sustainable source of energy has now become mission critical, due to changes in transportation, the increasing challenges presented by an ageing infrastructure, and environmental damage which is


creating more frequent adverse weather events leading to increasing power outages. While early adopters of CHP were predominantly large power users, such as oil refineries and chemical


manufacturers, the marketplace for CHP solutions is rapidly growing into other sectors including hospitals, hospitality, and wastewater treatment – all looking for the power resiliency, increased efficiencies, carbon reduction and financial benefits CHP can provide. Among those is the global commercial greenhouse market, a sector which grows vegetables, flowers,


trees, ornamentals and shrubs. This is expanding rapidly in response to climate change and a rapid increase in global food demand as the population continues to increase and more crops are being forced indoors to secure greater crop yields.


DRAMATIC BENEFITS FOR GREENHOUSES Being so energy intensive due to the nature of their locations and their need for a constant source of reliable heat, cooling and light in order for their plants to thrive, greenhouses are a perfect fit for a CHP system. Today, they make increasing use of modern technologies that make better use of light and air. Not surprisingly, cogeneration solutions are increasingly popular in greenhouses, and a CHP facility can supplement or produce all the electric power they require. As an added benefit, the carbon dioxide gas produced by the engine exhaust can be harvested off and used


to stimulate plant growth. They are essentially using three forms of energy when carbon is also harvested. An example of this is at JMP Flowers, one of Europe’s largest producers of orchids. The company, which


runs eighteen acres of greenhouse, installed a Caterpillar generator to meet their energy needs. This provides 4.5 megawatts of electric power and 5.25 megawatts of thermal energy. The carbon dioxide is circulated throughout the greenhouse which, through the process of photosynthesis, plants turn into oxygen and is then released into the atmosphere generating a positive impact on


environment. The CO2 also stimulates plant growth, creating a true win-win in using a CHP solution within commercial greenhouses. While electric utilities struggle to cost effectively meet the energy needs of this sector, in the case of CHP the


savings are dramatic and can pay back within a remarkably brief period of time. In the case of JMP flowers, for an investment of £4.2m in a Caterpillar generator, the payback of the facility was around three years – a very cost- effective investment, which can also provide backup power in the case of an outage from their utility provider. With the right design of CHP unit, greenhouses are becoming increasingly commercially viable as CHP promotes plant growth and helps them to operate more profitably.


MEETING SUSTAINABILITY GOALS Finning has a global reputation for developing CHP solutions that are durable, economic and dependable, and typically provides Cat gas-fuelled generator sets for this application because of their excellent environmental characteristics and their efficient production of heat and electricity. CHP provides a continuous supply and efficiencies of up to 90%, and reduced energy costs and emissions,


helping them to meet their sustainability goals, while also providing them with the ability to operate all or part of a facility in the case of a grid failure, depending on the size and application of the system. As a result, other growing markets for CHP include district heating systems which are used in universities or cities. As the UK government continues its path to Net Zero and plans for further renewable energies, CHP can


future-proof itself by looking at alternate fuels in the future, such as hydrogen. It is predicted that within the next decade we will see a complete switch over to hydrogen technologies as we transition away from natural gas. An existing Cat CHP system can be retrofitted to operate on either 100% hydrogen or partial blends of


hydrogen to produce electric power. Knowing you can decide to use CHP today and still meet the demands of the future is a game-changer. It is this sustainability which means using CHP makes a lot of sense, because it is a sustainable solution for today and tomorrow.


Finning www.finning.com/en_GB/industries/electric-power-generation/chp.html www.finning.com/en_GB


www.essmag.co.uk


ENERGY & SUSTAINABILITY SOLUTIONS - Winter 22/23


13


Page 1  |  Page 2  |  Page 3  |  Page 4  |  Page 5  |  Page 6  |  Page 7  |  Page 8  |  Page 9  |  Page 10  |  Page 11  |  Page 12  |  Page 13  |  Page 14  |  Page 15  |  Page 16  |  Page 17  |  Page 18  |  Page 19  |  Page 20  |  Page 21  |  Page 22  |  Page 23  |  Page 24  |  Page 25  |  Page 26  |  Page 27  |  Page 28  |  Page 29  |  Page 30  |  Page 31  |  Page 32  |  Page 33  |  Page 34  |  Page 35  |  Page 36  |  Page 37  |  Page 38  |  Page 39  |  Page 40