UCLA Labor Center Report Makes a Case for Deep Green Energy Efficiency Retrofits
Why Basic Weatherization will Fall Short in Maximizing Carbon Reductions and Green Job Opportunities: http://constructionacademy.org/wordpress/wp-content/uploads/2010/05/v.4-Deep-Green-Energy-Efficiency-Retrofits-FINAL-05-18-10-CCA.pdf
Los Angeles, CA, May 26, 2010 --(PR.com)-- Today in the United States, buildings account for approximately 40% of total energy use and 73% of total electricity use annually. A deep green approach to energy efficiency refers to the design and technical implementation of energy efficiency retrofit programs in a manner that maximizes job and business creation, greenhouse gas emissions reductions, and energy savings as compared to basic weatherization.
“The Case for Deep Green Energy Efficiency” report released by the California Construction Academy, a project of the UCLA Labor Center, highlights how and why a deep green approach to energy efficiency can unlock the opportunities mentioned above. The report outlines recommendations for developing clear program objectives and outcomes for a deep green approach to energy efficiency. Please paste the following address into your browser to access the report: http://constructionacademy.org/wordpress/wp-content/uploads
/2010/05/v.4-Deep-Green-Energy-Efficiency-Retrofits-FINAL-05-18-10-CCA.pdf.
Or access it through the CCA Website here: http://constructionacademy.org/national-projects/new-report-from-california-construction-academy-the-case-for-deep-green/#more-584
Stakeholders and decision-makers who are interested in achieving significant reductions in energy consumption and expanding green job opportunities should opt for a deep green approach to an energy efficiency retrofit program over those that only do basic weatherization, or those that advocate for starting with basic rebate measures instead of beginning with a comprehensive building audit.
In the residential market, basic weatherization traditionally includes “lowest hanging fruit” elements such as insulation, air sealing, and pipe-wrapping. Deep green energy efficiency work takes a “whole-house” approach to retrofits by including a whole building audit at the beginning of a retrofit process, and consists of electrical, plumbing, heating and air-conditioning, water conservation, and other energy and water-related upgrades.
As compared to basic weatherization and/or appliance upgrades, a comprehensive deep green energy efficiency retrofit unlocks the largest opportunities to reduce the amount of energy used by buildings, reduce greenhouse gas emissions, increase indoor air quality and comfort, and create the largest number of green career opportunities in construction and other industries.
Deep green energy efficiency shaped through comprehensive audits will help local municipalities, states, and the federal government accomplish program objectives and meet the “triple-bottom line” goals of economic growth and stability, responsible environmental stewardship, and social justice and equity.
For municipally-run programs, the authors of the report recommend the following program objectives for a deep green approach to energy efficiency:
1) Maximize reductions in green house gas emissions;
2) Maximize potential energy savings;
3) Maximize the opportunities to generate high-road apprenticeable jobs, and business development opportunities (within the construction sector & indirect sectors);
4) Strengthen community-labor-management-municipal relationships; and
5) Educate community on energy-saving and green behaviors.
The authors of the report recommend the following design components for effective implementation of a deep green energy efficiency program:
1) Targeted outreach and education based on neighborhood geography and demographics (determined by available financing)
2) Detailed analysis of building stock, building types, tenancy, and utility metering
3) A turn-key approach to program delivery (one-stop for the customer)
4) Local hire job opportunities and enforceable labor standards
5) Work begins with standardized, BPI/RESNET certified, whole building audits
6) Aggregated and bundled contracts by a public-private Coordinating Entity
7) Immediate improved comfort and/or energy savings for participants
8) Sustainable financing options based on consumer type
9) Third party certification of savings, including monitoring and verification of completed work
Through careful consideration of best practices in the home performance and construction industry, and along side community groups’ desire for jobs and equity, cities can accomplish simultaneous objectives through the design and technical implementation of deep green energy efficiency programs.
The California Construction Academy (CCA), a project of the UCLA Labor Center, provides leadership, coordination, and research on the most relevant issues facing the construction industry throughout the State of California. The CCA accomplishes these objectives through convening educational meetings on workforce development, conducting research on innovative and impactful trends in the construction industry, disseminating research on relevant policy initiatives, and facilitating multi-stakeholder collaborations. For more information, go to http://constructionacademy.org/
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“The Case for Deep Green Energy Efficiency” report released by the California Construction Academy, a project of the UCLA Labor Center, highlights how and why a deep green approach to energy efficiency can unlock the opportunities mentioned above. The report outlines recommendations for developing clear program objectives and outcomes for a deep green approach to energy efficiency. Please paste the following address into your browser to access the report: http://constructionacademy.org/wordpress/wp-content/uploads
/2010/05/v.4-Deep-Green-Energy-Efficiency-Retrofits-FINAL-05-18-10-CCA.pdf.
Or access it through the CCA Website here: http://constructionacademy.org/national-projects/new-report-from-california-construction-academy-the-case-for-deep-green/#more-584
Stakeholders and decision-makers who are interested in achieving significant reductions in energy consumption and expanding green job opportunities should opt for a deep green approach to an energy efficiency retrofit program over those that only do basic weatherization, or those that advocate for starting with basic rebate measures instead of beginning with a comprehensive building audit.
In the residential market, basic weatherization traditionally includes “lowest hanging fruit” elements such as insulation, air sealing, and pipe-wrapping. Deep green energy efficiency work takes a “whole-house” approach to retrofits by including a whole building audit at the beginning of a retrofit process, and consists of electrical, plumbing, heating and air-conditioning, water conservation, and other energy and water-related upgrades.
As compared to basic weatherization and/or appliance upgrades, a comprehensive deep green energy efficiency retrofit unlocks the largest opportunities to reduce the amount of energy used by buildings, reduce greenhouse gas emissions, increase indoor air quality and comfort, and create the largest number of green career opportunities in construction and other industries.
Deep green energy efficiency shaped through comprehensive audits will help local municipalities, states, and the federal government accomplish program objectives and meet the “triple-bottom line” goals of economic growth and stability, responsible environmental stewardship, and social justice and equity.
For municipally-run programs, the authors of the report recommend the following program objectives for a deep green approach to energy efficiency:
1) Maximize reductions in green house gas emissions;
2) Maximize potential energy savings;
3) Maximize the opportunities to generate high-road apprenticeable jobs, and business development opportunities (within the construction sector & indirect sectors);
4) Strengthen community-labor-management-municipal relationships; and
5) Educate community on energy-saving and green behaviors.
The authors of the report recommend the following design components for effective implementation of a deep green energy efficiency program:
1) Targeted outreach and education based on neighborhood geography and demographics (determined by available financing)
2) Detailed analysis of building stock, building types, tenancy, and utility metering
3) A turn-key approach to program delivery (one-stop for the customer)
4) Local hire job opportunities and enforceable labor standards
5) Work begins with standardized, BPI/RESNET certified, whole building audits
6) Aggregated and bundled contracts by a public-private Coordinating Entity
7) Immediate improved comfort and/or energy savings for participants
8) Sustainable financing options based on consumer type
9) Third party certification of savings, including monitoring and verification of completed work
Through careful consideration of best practices in the home performance and construction industry, and along side community groups’ desire for jobs and equity, cities can accomplish simultaneous objectives through the design and technical implementation of deep green energy efficiency programs.
The California Construction Academy (CCA), a project of the UCLA Labor Center, provides leadership, coordination, and research on the most relevant issues facing the construction industry throughout the State of California. The CCA accomplishes these objectives through convening educational meetings on workforce development, conducting research on innovative and impactful trends in the construction industry, disseminating research on relevant policy initiatives, and facilitating multi-stakeholder collaborations. For more information, go to http://constructionacademy.org/
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Contact
California Construction Academy - UCLA Labor Center
Daniel Villao - Director
213-500-6463
http://constructionacademy.org/
Contact
Daniel Villao - Director
213-500-6463
http://constructionacademy.org/
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