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THE DEPARTMENT OF ENERGY'S OBJECTIVES . Ensure uninterrupted supply of energy to the Republic; Promote diversity of supply of energy and its sources; Facilitate effective management of energy demand and its conservation; Promote energy research; Promote appropriate standards and specification
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1. WORKING FOR ENERGYPRESENTATION David K Mahuma19 April 2012
2. THE DEPARTMENT OF ENERGY’S OBJECTIVES Ensure uninterrupted supply of energy to the Republic;
Promote diversity of supply of energy and its sources;
Facilitate effective management of energy demand and its conservation;
Promote energy research;
Promote appropriate standards and specifications for the equipment, systems and processes used for producing, supplying and consuming energy;
Ensure collection of data and information relating to supply, transportation and demand;
Provide for optimal supply, transformation, transportation, storage and demand energy that are planned, organised and implemented in accordance with a balanced consideration of security of supply, economics, consumer protection and a sustainable development;
Provide for certain safety, health and environment matters that pertain to energy;
Facilitate energy access for improvement of quality of life of the people the Republic;
Commercialise energy-related technologies;
Ensure effective planning of energy supply, transportation and consumption; and
Contribute to sustainable development of the South African economy.
3. SANEDI’s VISION
“To serve as a catalyst for sustainable energy innovation, transformation and technology diffusion in support of South Africa’s sustainable development that benefits our nation”.
4. OBJECTIVES OF THE WORKING FOR ENERGY PROGRAMME-ENERGY PROVISION Energy Provision from a diversity of renewable energy sources;
Improvement of the quality of life of the beneficiary households/communities;
Contribution towards Green Job Creation;
Skills Development in the new and renewable energy space;
Community enterprise development;
Climate change mitigation; and
Research into sustainable new and renewable energy options.
5. STRATEGIC OUTPUTS OF THE WORKING FOR ENERGY PROGRAMME Demonstrated increase in employment levels within participating communities.
Create 400 new full time employment opportunities and 120 000 person days of temporary employment during the five years until 2017 and hence contribute 0.01% (equivalent to 500 new jobs) towards the 5 million new jobs by 2020 as targeted by the new growth path.
Rural clean energy production and provision
Establish clean energy and electricity production and supply facilities equivalent to 5MWp and 25 GWh/a within (rural) communities by 2017 with all associated economic, social and sustainability benefits.
Demonstrated Energy Management opportunities
Develop and demonstrate the rural application of energy efficiency technologies to deliver energy savings of 0.5 MW and 1.5 GWh/a by 2017 with all associated economic and environmental benefits (refer equation A, term 1, Section 8 of this plan).
6. FOCUS AREAS OF THE WORKING FOR ENERGY PROGRAMMEENERGY PROVISION FROM NON-GRID SYSTEMS UNDER 1MWe
7. WORKING FOR ENERGY: ENERGY PROVISION Biomass to energy from invasive alien plants and bush encroachment;
Charcoal derived in an environmentally friendly manner from invasive alien plants and grasses;
Biogas to energy for rural and non-municipal commercial application derived from agricultural waste
Mini-grid hybrid and smart grid systems fed from renewable based electricity supplies;
Mini hydro systems and run of river schemes;
Waste to energy from municipal solid waste or sewage treatment;
Alternative fuel sources for low cost housing, space heating, cooking and water heating.
8. DEVELOPMENTAL STAGE OF THE WORKING FOR WATER PROGRAMME The Working for Energy Programme was launched in 2009
Like its better-known sister programmes, Working for Water and Working on Fire, the Programme aims to create jobs and skills through localised projects.
However, the Programme is still in a phase of systems and technologies proofing, it is seen as a pioneer in a move away from the current centralised approach to energy provision that makes access to energy particularly difficult and costly in rural areas and for low-income households.
The Programmme aims to help communities to participate directly in securing modern energy services, using locally available resources and appropriate technologies. The programmer’s current focal point is the provision of renewable energy through:
9. BIOMASS FROM INVASIVE SPECIES Biomass waste, derived from wood, pulp and paper industry waste, agricultural residue, alien vegetation clearance, plan can be pelletised and converted into a clean, no smoking and low emission solid biofuel with a calorific value between 28 and 30 MJ/kg including wood gas through a gasification process.
Biomass waste sources consist of:
• Veldt grass from rural areas with a rainfall of more than 450 mm per annum;
Concentrated biomass at municipal refuse tip sites, municipal water care works (sewage sludge), saw mills, sugar refineries and agro-processing sites;
• Forestry areas for unwanted growth clearing and fire lanes;
• Road reserves;
• Invader plants/species; and
• Ordinary agricultural harvest waste.
10. BENEFITS OF THE PROJECT Sustainable job creation and poverty eradication in rural areas and a decrease in the urge for urbanisation;
- Creation of new wealth from waste, grass and invader species;
- Reduction of pollution and minimising health risks by replacing D-grade coal;
- Establishment of a new branch in the energy sector which is not marred with vested interests and is community based;
- Sustainable daylight extension for poor households;
- Reduction on household expenditure for energy needs; and
- Promotion of gender equality in the energy sector
Job creation.
11. ANAEROBIC (WITHOUT OXYGEN) DIGESTION Environmentally related legislation on solid waste disposal methods has increased the application of anaerobic digestion as a process for reducing waste volumes and generating useful by-products.
Anaerobic digestion may either be used to process the source separated fraction of municipal waste or alternatively combined with mechanical sorting systems, to process residual mixed municipal waste
Utilising anaerobic digestion technologies can help to reduce the emission of greenhouse gasses in a number of key ways:
Replacement of fossil fuels
Reducing or eliminating the energy footprint of waste treatment plants
Reducing methane emission from landfills
Displacing industrially produced chemical fertilizers
Reducing vehicle movements
Reducing electricity grid transmission losses
12. WFE BELA-BELA PROJECT PHASE 2 Project Background
Humphries Boerdery is a large-scale commercial pig farm. The piggery at Humphries Boerdery has approximately 1 000 breeding sows and can accommodate up to 15 000 animals.
The aim of the project is to utilize the gas produced for electricity and thermal benefits and to showcase responsible and potentially profitable, waste management with energy recovery, and is leading the way for other bio-gas projects in Southern Africa.
Project Location – Bela-Bela, Limpopo
Project Partners
Working for Energy Programme
Department of Energy
South African National Energy Research Institute
Humphries Boerdery
Cape Advanced Engineering
13. BIO-WASTE TO PIPED BIOGAS AND ELECTRICITY BELA-BELA PROJECT
14. KEY ACHIEVEMENTS Energy Generation
200 kWe Generated and 150 kJ of biogas per second
Job Creation
12 Jobs Created, with 515 Person Days
Skills Development
Project team members have acquired high level skills in the design and development of biogas generator at a scale and economic value which can be replicated for other similar projects in South Africa and abroad
NEXT PHASE
Gas Reticulation to neighbouring communities for thermal application
Greater Local Government involvement as part of service delivery, outside farm gate.
Energy diversity for beneficiaries
Revenue collection for sustainability of benefit
Public-Private sector collaboration for mutual benefit.
Replication Opportunities
15. BIO-WASTE TO PORTABLE BIOGASPHILLIPI PROJECT
16. BIOGAS CLUSTER PROJECTSWASTE TO BIOGAS
17. WFE BIO-ENERGY CLUSTER PROJECT PROJECT BACKGROUND
The objective of the project was to demonstrate the rural application of Biogas in the Eastern and Western Case as a means to the provision of affordable, sustainable and clean energy for rural and peri-urban communities. The project was also aimed at demonstrating that rural application of biomass can create jobs, transfer skills and create local economic empowerment.
Project Location
Phillipi, Schaapkraal . Cape Town
Bulungula. Eastern Cape
Fort Cox Department of Agriculture
University of Fort Hare
Project Partners
Working for Energy Programme, Department of Energy, SANERI, Silver Solution
LESSONS LEARNED
Consider smaller cheaper bio-digester applications for domestic applications.
Consider self help structures for sustainability
NEXT PHASE
Enhance the efficiency of the Bio-energy cluster projects
19. OUTPUTS OF THE PROJECTS OUTPUTS
Reduced dependency on diesel powered generation and carbon footprint;
Reduced operational cost;
Improved energy supply reliability through diversity of integrated energy sources;
On site improved waste management
On site improved environment management and greenhouse gas emission reduction;
Proven concept of renewable hybrid power in minigrid systems;
CHALLENGES
Still awaiting RIM Council Resolution to Proceed with Feasibility Study.
20. FOCUS AREAS OF THE WORKING FOR ENERGY PROGRAMMEENERGY MANAGEMENT
21. OBJECTIVES OF THE WORKING FOR ENERGY PROGRAMME- DEMAND SIDE MANAGEMENT Energy management planning and development of methodologies and frameworks for social facilities, homes and SMME businesses, including solar passive design;
Thermal efficiency and energy management frameworks for the development and installation of biomass ceilings and other renewable insulation materials in poor or rural households, subject to SABS approval;
Energy management planning and methodology framework for the provision of energy and water saving technologies, water loss management and leakage monitoring and control.
Research studies for energy poverty eradication, sustainable feedstock provisions and alternative fuel sources for low cost housing’s low carbon space heating, cooking and water heating
22. APPLIED PRINCIPLES OF ENERGY EFFICIENT HOUSING Passive thermal Design
Orientation of dwellings
Choice of Building materials
Daylighting
Roof Overhangs
Weatherisation and Insulation
Installation of Ceilings
Wall Insulations
High thermal mass flooring
Shared Walls
23. CROSS CUTTING BENEFITS OF THE WORKING FOR ENERGY PROGRAMME The Working for Energy has the added benefits of enhancing the following Government Objectives:
Youth, Women and People with Disabilities development
Skills Development in the Green Economy
Meaningful participation of rural areas in the Green Economy
Rural Enterprise Development and enhanced Community Ownership
24. STAKEHOLDERS INVOLVED IN THE WORKING FOR ENERGY RELATED SKILLS DEVELOPMENT ORGANISATIONS
Department of Energy
EWSETA
ESKOM
SAQA
Targeted Municipalities
NGO’s
Renewing Our Nation (RON)
South African National Council Of Chambers (SANCOC)
YOUTH ORGANISATIONS
National Youth Development Agency (NYDA)
South African Youth Council (SAYC)
25. ENTERPRISE DEVELOPMENT Thorough skills development and entrepreneurial training where applicable together with the WfE stakeholders;
Roll-out of proven WfE projects;
Development of maintenance enterprises for sustainability of WfE projects;
Thorough research for exit opportunities;
Close monitoring of enterprises for growth and maturity;
Register the developed enterprises on the WfE database;
WfE youth energy cluster enterprise development;
Ownership by SANEDI;
26. CONCLUSIONS The Working for Energy Programme :
contributes towards the development of the Green Economy, focusing on rural and urban low income communities
Contributes towards rural job creation
Contributes towards rural skills development
Is an integral part of , and compliments the other “Working for” initiatives;
Fills the gap for small social energy service provisions, normally ignored by commercial interests;
Creates a market for rural areas energy industries, including secondary industries with potential to feed into the mainstream economy.
Can be replicated and scaled up for broader applications to enhance service delivery.
27. END OF PRESENTATIONdavidm@sanedi.org.zaTel: (010) 201-4767