Numbers...... not Adjectives 2004 977 Kt 9 % 2011 e 891 Kt 21 % 2015 683 Kt Based on NI186 data for Winchester District with motorway emissions removed.

Slides:



Advertisements
Similar presentations
Producing energy does not have to threaten the environment. In fact, its very production can reap major environmental benefits. The United States biomass.
Advertisements

Ch Renewable Energy Today
DISTRICT HEATING: AN OVERVIEW PRESENTED BY: NIELSEN SYSTEMS APRIL 8, 2011.
Climate change and community renewables. +4C is considered ‘incompatible with organised global community’. 2 Average surface temperature at height of.
Mitigation Strategies What and Why?. What is mitigation? To decrease force or intensity. To lower risk. Earthquake mitigation Flood mitigation Climate.

FOOD WASTE AS A COMMODITY Public-Private Alliance “You can tell how high a society is by how much of its garbage is recycled.” —Dhyani Ywahoo, Native American.
Southwark’s New District Heating Network.
Community Energy Opportunities Jon Bell Business Development Manager Mosscliff Environmental Ltd.
2 Climate Change Implications for the Water Industry Dr Dan Green Wessex Water Services Ltd.
Potential Impacts of an Advanced Energy Portfolio Standard in Pennsylvania Ryan Pletka, P.E. Black & Veatch April 12, 2004 Supported by: Heinz Endowments.
Houghton College/NextEra Solar Array. Solar Array Details 2.5 MW system covering 11 acres 2.92 million kWh production (equivalent to powering 270 homes.
MITIGATING CLIMATE CHANGE. WHAT WE KNOW The level of greenhouse gases in the atmosphere have increased, causing the Earth’s temperature to rise. One greenhouse.
Scientology for Mormons Fission An atom contains protons and neutrons in its central nucleus. In fission, the nucleus splits, either through radioactive.
What are the pros and cons of both renewable and nonrenewable energy? Is the implementation of renewable energy in modern society realistic? Coal as an.
Alternative Energies. Structure of topic What are alternative energies and why do we need them? Types of alternative energies: – Nuclear – Hydroelectric.
Today’s lesson will focus on Renewable Energy. So, what is Renewable Energy? Renewable Energy 2.
Slide 1 Introduction to Renewable Energy Technologies Rural Cumbria Connects Consortium.
Natural Resources.
Man and Energy 2 Pongthep Suwanwaree, Ph.D. School of Biology Institute of Science Suranaree University of Technology 18 January 2005.
CHAPTER 12 Energy Considerations. Overview  Case Study: Power Plant for Surry, Virginia  Background  Energy Trends  Energy Sources  Environmental.
The role of waste management and energy from waste in a circular economy- SITA UK’s proposed Severnside development Sept 2009 Stuart Hayward-Higham.
Renewable and nondepletable energies Topic 18 part 4.
Specification section 7.2. What do you need to learn? The applications and advantages/ disadvantages of using the following renewable sources of energy:
RENEWABLE ENERGY. SOLAR ENERGY Can be used to: -Heat water -Heat spaces -Run electricity (electronics, appliances) Works from PHOTOVOLTAIC devices (PV)
Renewable energy resources are the sources that can be replaced / generated at the same rate that they are being utilised.
Going Green Interior Design. Today city-planners, engineers, builders, designers and consumers are looking for ways to reduce fuel and water consumption.
Environmental Challenges and Opportunities of the Evolving North American Electricity Market Presentation for UNFCCC Workshop on Cleaner GHG Emitting Energy.
Alternative Renewables. Biofuels Plant or animal material 3 types – Biomass Wood, yard waste Methane from landfills, feedlots Burned and used to create.
Another Look at Renewable Energy Resources Student will identify five types: hydroelectric, solar, wind, biofuels and geothermal.
Chapter 10 - Biofuels. Introduction Existing standards for carbon accounting Forestry schemes as carbon offsets Biomass energy in place of fossil fuels.
Pearse Buckley Sustainable Energy Ireland Energy from Waste.
Climate Change and Renewable Heat; The Importance of Biomass Use Green Heat Wood Fuel for the Construction Industry.
Ch. 18 Renewable resources!!
The way of the future Tomorrows resources Today. Definitions Sustainable Technology ? Purpose: To advance the understanding, development and application.
BMT Designers & Planners 1 Wind Farm Technology: Is it the Answer? National Defense Industrial Association (NDIA) 30 th Environmental and Energy Symposium.
Life Cycle Greenhouse Gas Emissions from Electricity Generation.
Common well know ways to reduce global emission of greenhouse gases.
ABDULAZEEZ MUHAMMAD ITEC211 BIOMASS. CONTENT BIOMASS WHERE DOES IT COME FROM ? TYPES OF BENEFICIAL BIOMASS METHODS OF CONVERSION ADVANTAGES AND.
For the instructor Energy part 4 covers alternative ways to generate electricity using solar and bio-fuels the slide show starts with the next slide.
Directorate General for Energy and Transport Euroforenet Conference 20/11/2007 Brussels European Commission Kyriakos MANIATIS Biofuels & Industry DG TREN.
1. Hybrid Planning Application Detailed Application = Stadium and related infrastructure Outline Application = Enabling development sites 2.
Chapter 3 Wind Power of the world. 3.1 Development and utilization of wind energy in China  Wind power generation  Wind farm construction.
Social Benefits Improve public health of work force and community. Create more walkable, accessible, and livable neighborhoods by incorporating Smart Growth.
Renewing London’s Energy Godfrey Boyle Co-Director, Energy & Environment Research Unit, Open University +Course Team Chair T206 Energy For a Sustainable.
Exploring Solutions Activity 2: Clearing the Air.
Climate Change & Energy Awareness Workshop – Yrs 5/6.
Our World, Our Share Winchester Sustainable Business Partnership 24 October 2014 Richard Ritchie Chair, WinACC Renewable Energy Action Group.
By: Claire Sheppard Matt Jackson Nathan Curtis and Nadia Hakim.
BIOMASS ENERGY International Renewable Energy Youth Competition Una Pale Omri Danziger Avishai Ketko.
Natural Resources. Two Types of Natural Resources Nonrenewable- limited Renewable-”unlimited”
Energy Sources for North Carolina. Fossil Fuels Coal, oil, and gas Formed from fossilized remains of prehistoric plants and animals Provides 95% of the.
Alternative Energy. Solar Power Passive Solar –Building design using sunlight for heating Photovoltaics –Turn sunlight into electricity Power Towers –Mirrors.
Alternative Energy: Biomass Erica Cabaluna and others.
Biofuels Biomass is a renewable energy source because its supplies are not limited. We can always grow trees and crops, and waste will always exist. Environmentally,
BIOMASS ENERGY AND BIOGAS GENERATION Biomass is a renewable energy source that is derived from living or recently living organisms. Biomass includes.
Combined Heat and Power in Copenhagen Copenhagen’s CHP system supplies 97% of the city with clean, reliable and affordable heating and 15% of Denmark’s.
Welcome. Wind Turbines & Solar Farm Update Nationally: What the Government are saying Eric Pickles issued new guidelines stating that local communities.
Today we’re going to learn more about Renewable Energy
Stockport Renewable Energy Experiences Angie Jukes Stockport Council Technical Policy & Planning
Industrial Association of CCC ● Thursday, April 14, 2016.
Guardbridge University of St Andrews May Guardbridge: Present.
Planning Advisory Service Seminar 11 th March 2015, Leeds Renewable Energy.
Microgeneration Karl Letten – Change Programme Support Officer (Environment) Change Management.
Energy resources BY DANIEL, CHRIS, YOHANA AND SANDRA.
Local Action Moves the World! 12 Years of the Cities for Climate Protection Campaign International Cities in Action.
Environmental Science II Review Ms. Hughes’s Class.
Solar thermal (hot water)
Allington Waste Management Facility
Endless Power.
Presentation transcript:

Numbers not Adjectives Kt 9 % 2011 e 891 Kt 21 % Kt Based on NI186 data for Winchester District with motorway emissions removed for 2004, and 2009 reported emissions increased by 2.6% to reflect GDP increases from 2009 to 2011 We need to save 208 Kt

47,000 homes cut energy use by 30% 27,000 cars off the road 65,000 homes get 2.5KWp solar PV 208 Kt cut in CO 2 =

TypeNo.CO 2 reductionOutput (Tonnes a yr) (GWh a yr) Wind farm246,00026 each Solar PV large roofs12319,00032 Solar PV farm115,00025 Anaerobic digester1024,00090 Biomass combustion for electricity 320,00030 Biomass energy from wood waste116,00050 Landfill methane harvesting460,0003 TOTAL 200, Kt cut in CO 2 =

32 Kt cut in CO 2 = 4,500 cars or:

Wind potential in Winchester District This map provides a clear overview of those locations with the highest potential for wind power in the District 02/10/2015 Renewable & Low Carbon Energy Opportunity Assessment 5

Major Wind Development Developer: EDF Energy Site: Bullington Cross (A303/A34 intersection) Install: 17 x 2MW turbines Impact: 32,000 CO 2 displaced

36 Kt cut in CO2 = 11,000 or half the eligible homes in the district having solar PV, or:

Waste to energy (pyrolysis) and anaerobic digester Developer Clean Power Properties & Network Rail Infr. Ltd Site Micheldever Rail Sidings Install 6MWe Pyrolysis Plant 1.6MWe Anaerobic Digestion (food/green waste) Impact 78,000 CO 2 displaced

ProjectCO 2 reductionhow many cars? (Tonnes a yr) EDF wind farm32,00010,700 Clean Power Pyrolysis (says Ernie) 28,5009,500 Clean Power Anaerobic digester 7,6002, Kt cut in carbon dioxide is:

WinACC Renewable Energy Action Group Focusing on projects which could have the highest impact based on the greenhouse gas emissions impact and probability of successful implementation: 1.EDF wind farm 2.CPP/Network Rail waste to power 3.CPP/Network Rail anaerobic digester 4.Fontley methane from landfill and anaerobic digestion 5.Solar PV on non-domestic roofs that can be aggregated by place or ownership, possibly Winnall 6.Raglington solar farm.

Methane emissions in Winchester District This map provides a clear overview of those locations with the highest intensity of CH 4 emissions 02/10/2015 Renewable & Low Carbon Energy Opportunity Assessment 12

60 Kt cut in CO2 = 13,500 homes cut a third off their energy or: Site Access Physical Boundary Drainage Ditch Drainage Ponds Fontley landfill site for methane collection

Landfill gas termination near Titchfield Lane entrance

Damage to gas collection system near Titchfield Lane entrance

WinACC’s position We want to see much more generation of renewable energy in Winchester District to help reduce the UK’s greenhouse gas emissions. So our starting point is to support proposals in principle even though we recognise that each scheme will have disadvantages as well as advantages. But we will always judge each proposal on its merits. We will argue for all schemes to have benefit for the wider community, e.g. ones which are community-led, or business-led with shares to individuals or communities.

ISSUES TO BE ADDRESSED BY THE ENVIRONMENT IMPACT ASSESSMENT 1.Temporary/Permanent Effects 2.Direct/Indirect Effects 3.Positive/Negative 4.Air Quality and Odour 5.Transport 6.Land Conditions and Contamination 7.Ecology 8.Water Resources and Flood Risk 9.Landscape and Visual 10.Noise 11.Archaeology and Cultural Heritage 12.Socio-economic 13.Cumulative Impact 14.Alternative Technologies/Sites/Need 15.Development Programme and Construction Micheldever Rail Sidings, Hampshire: Proposed Development of Advanced Conversion Technology and Anaerobic Digestion Facility