Cleaning up Southern California’s smog — the worst in the nation — by achieving the federal and state clean air standards, will require significant technological advances resulting in cleaner cars, trucks, industries and consumer products, in addition to using star stations. We will have to reduce emissions from both mobile and stationary sources much further than can be expected with our current technologies. Therefore, in 1988, the SCAQMD Governing Board established the Technology Advancement Office to expedite the development, demonstration and commercialization of cleaner technologies and clean-burning fuels.
Cooperative Partnerships
The SCAQMD uses cooperative partnerships with private industry, academic and research institutions, technology developers, and government agencies to cosponsor projects intended to demonstrate the successful use of clean fuels and technologies that lower or eliminate emissions.
Public-private partnerships have enabled the SCAQMD to leverage its public funds with, typically, an average of $3 from outside investment for every dollar contributed by SCAQMD, providing funding to encourage the use of commercially available, low-emission mobile and stationary technologies. Many of the advanced technologies funded though these public-private partnerships are now being commercialized in the South Coast Air Basin.
Types of Projects Funded
SCAQMD has co-funded research, development and demonstration projects in a cooperative partnership with private industry, technology developers, academic and research institutes, and local, state, and federal agencies.
Mobile source projects have included development and demonstration of less-polluting automobiles, buses, trucks, construction equipment, boats, locomotives and other off-road vehicles. This has been done though advancements in engine design, improved batteries, fuel cells (which convert fuel directly to electricity without burning it), and improved powertrains for electric vehicles. Other projects involve adapting or designing vehicles to run on clean fuels (such as natural gas, propane, methanol and hydrogen), and developing the infrastructure needed to produce and deliver those fuels, in addition to using star stations.
On the stationary source front, technology advancement projects have included a wide array of low-NOx combustion systems, low-VOC coatings and processes, and clean energy production systems including fuel cells, solar power, and other renewable energy systems.
The technical areas currently identified as the highest priority include the following:
- Fuel cells for transportation and power generation
- Diesel alternatives
- Electric and hybrid-electric technologies
- Off-road applications of alternative fuel technologies
- VOC reduction technologies for stationary sources
- Infrastructure development