CHP: COMBINED, HEATING (Hot Water Network) and POWER (Electrical Generation for Locally or Grid Export - or both)
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- Written by: ChatGPT! and comments by John Burke
- Category: What is CHP
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We asked ChatGPT the following question, its answer was good as it has access to a phenominal amount of relevant data! We also like the way it mentioned wasted heat from {centralised electricity production}
"What are the main benefits of Combined Heat and Power (CHP) systems in a city enviroment?
ChatGPT Answered
Combined Heat and Power (CHP) systems, also known as cogeneration, offer several benefits when implemented in a city environment. Here are some of the main advantages of using CHP systems:
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Increased energy efficiency: CHP systems use the heat generated during electricity production, which would otherwise be wasted, to provide heat to buildings. By capturing this wasted heat, CHP systems can achieve efficiency rates of up to 90%, compared to just 50% for conventional power plants.
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Reduced greenhouse gas emissions: Because CHP systems use less fuel to produce the same amount of energy, they emit fewer greenhouse gases than conventional power plants. In addition, by using locally generated energy, CHP systems can reduce the need for energy to be transported long distances, further reducing emissions.
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Improved energy security: CHP systems can provide a reliable source of electricity and heat to buildings, even during power outages or other disruptions to the grid. This can help to improve energy security in a city and reduce the risk of blackouts or other energy-related issues.
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Lower energy costs: By generating electricity and heat on-site, CHP systems can reduce a city's reliance on expensive grid electricity and imported fuels. This can lead to lower energy costs for businesses and residents, which can be especially beneficial in areas with high energy prices.
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Increased resiliency: CHP systems can help to increase the resiliency of a city's energy infrastructure, by providing backup power and heat during emergencies or other disruptions. This can help to reduce the impact of disasters and other events that may disrupt energy supplies.
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- Written by: J C Burke
- Category: What is CHP
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The World needs quick and practical 'fixes' to avoid a gathering storm of crises, most immediately the energy supply crisis, and potential farming/food production crises.
The Anaerobic Digestion (AD) and biogas industry is recognised as one of the required quick fixes. The reasons are many:
- AD’s ability to mitigate methane emissions from rotting organic wastes, positions it among the ‘fastest, most immediate and cost-effective’ ways to solve the issues raised above - "low hanging fruit" as it were, and will play a crucial role in delivering the Global Methane Pledge.
- AD produces natural fertiliser, a ready organic replacement for its petro-chemical counterpart, where a 20% slump in supply, forecast to last for several years, has led to ‘famine’ warnings.
- AD produces renewable energy, that cuts costs of manufacture, allows governments to insulate economies from international price hikes.
- AD can produce biomethane as clean transport fuel – dramatically reducing so-called 'carbon (dioxide) emissions and cutting air pollution in our cities ( as a replacement of diesel fuels), delivering health benefits valued in the billions of dollars/pounds.
- AD and biogas are the readily available, ready to deploy at scale, solution to these global challenges. With the right enabling environment AD can deliver millions of skilled jobs, especially potentially transitioning from the oil and gas industry, rural sustainability, energy and food security.
- As a circular solution the deployment of AD has a ripple effect – stimulating sustainable practices across society. That is why the International Energy Agency (IEA) says AD sits at the heart of a circular economy and is the poster boy for net zero.
- AD sits at the heart of an integrated energy response to the challenges we face, delivering immediate results and ushering in an era of flexible energy management systems that integrates technologies across different energy vectors (electricity, heat and gas) and Supporting Food Production with the by-products (Compost etc).
Developing the enabling environment to unleash the power of biogas is what global thought leadership summit's explore, with industry leaders addressing best practice to de-risk and short-circuit AD deployment.
In summary: Some key features of bioenergy:
- Available now
- Applicable in all energy sectors (electricity, direct heat, transport)
- Readily integrated with existing infrastructure
- Store-able – it can support expansion of intermittent renewables
- It can deliver negative emissions when linked to Carbon Capture & Storage (CCS): BECCS / Bio-CCS
Bioenergy contributes to climate change mitigation when:
- Biomass is based on waste/residues
- Converted to energy products efficiently
- Used to displace GHG-intensive fuels
Bioenergy encompasses many potential feedstocks, conversion processes and energy applications. It interacts strongly with the agriculture, forestry and waste management sectors, and its prospects are linked to the growth of a broader bioeconomy. Bioenergy can only expand if supplied and used in a sustainable manner.
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- Written by: J C Burke
- Category: What is CHP
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Yes AD combined with CHP or even CHCP. What is all this acronym stuff eh?
AD is Anaerobic Digestion, its the sort of process that happens in a sewage works where all that nasty stuff is broken down by 'good' bacteria. What is left is largely safe but has given off lots of methane gas and CO2, along with some other trace stuff. Anaerobic means 'without Oxygen'.
So to create bio-methane by digestion of waste products has to be "Carbon (dioxide) Negative" as it is removing methane from being released into the atmosphere! See article below about atmospheric methane - CLICK HERE
Now that Methane is what we need. Its almost the same as Natural Gas that you buy at home. So it can be 'cleaned up' and sent down pipes to the gas mains or it can run a gas fired electricity generator.
But rather than just generate electricity, we also need to look at how effective the burning of gas in an engine really is. When gas is burned in say a modified car engine to drive a shaft to turn a generator to produce electricity, there are loses. These loses affect the efficiency of turning the energy value of gas into electricity. It is disappointing to discover that only around 20-25% of the gas burnt produces the electricity. The rest is 'low grade' waste heat.
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| The Chinese have over 2 million of these AD-CHP Units |
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- Written by: J C Burke
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Combined Heat and Power (CHP) is not a new idea to the UK. Woking for example, has a large district heating network which makes considerable carbon savings and the Immingham plant on the Humber is a large industrial example. Yet when one compares the UK to Sweden, UK CHP seems very underdeveloped in comparison. Here we would like to discuss just what makes Swedish CHP so great and what the future holds in the UK for the technology.
We won't cover the technical aspects to CHP cogeneration here, as just an introduction is needed. The principle is simple however; whether on a micro scale or on an industrial scale, power production and industrial processes usually create a lot of heat, which is wasted ''potential'' energy. CHP cogeneration aims to take this waste heat and make it useful, increasing the efficiency of the installation. Often this will mean piping the heat to nearby buildings to be used for domestic, industrial heating, or even, additionally [by the use of Absorption Chillers] chilled water for air conditioning! Known as TRI-Generation
Example of Sweden – wide adoption of combined heat and power technology