Consistent with Executive Order 13777, the U.S. Environmental Protection Agency announced it is seeking public input on existing regulations that...
BOC designed and supplied the environmental technology for China's first mobile oxygenation barge. The self-sufficient barge represents the first step in a 12-year plan to rehabilitate Suzhou Creek, a highly-polluted stream that flows through Shanghai, China's largest city. The Suzhou Creek project is China's most ambitious water reclamation project to date.
The plan to clean up the creek was launched in 1998 with the creation of the Shanghai Suzhou Creek Rehabilitation and Construction Company (SSRCC). Its goal was to rehabilitate the Suzhou Creek to enable it to re-establish an ecosystem and increase the public health standard for nearby residents.
Stretches of the 125km Suzhou Creek have reached anaerobic conditions, which means there are insufficient levels of oxygen to support fish or other aquatic life. Pumping oxygen into the water, through the barge, will assist the natural process of decomposition of pollutants and the restoration of oxygen levels needed to sustain aquatic life.
The oxygenation barge, which was officially handed over to the Chinese government in November 2001, contains a BOC NovoxTM oxygen generator and two VitoxTM oxygen injectors. Water from Suzhou Creek is withdrawn from the river, oxygenated on the barge at a rate of five tons per day, and then returned to the river via 20 Vitox distribution nozzles mounted on each side of the barge.
This is the latest version of technology that BOC developed for use in two barges, the Thames Bubbler and Vitality, on stretches of the Thames River in England. Two delegations from SSRCC visited Vitality and talked with BOC engineers in Guildford, UK before awarding BOC the contract for the Suzhou Creek project.
At the official dedication ceremony that took place in Shanghai on November 2, 2001, Chinese environmental officials said they had originally planned to build several land-based oxygenation stations along the banks of Suzhou Creek, but decided it would be more effective to use a mobile oxygenation station to deal with shock load during emergencies. An SSRCC representative said, "The barge can go wherever it is needed to improve the oxygen level quicker and cultivate beneficial aerobic bacteria."
"We are obviously honored to have been selected by the Suzhou Creek Rehabilitation and Reconstruction Company for this important project," says David Jinkins, projects manager, customer engineering services, BOC. "We consider it the first step in a long and mutually-beneficial partnership, and we look forward to continuing to help the Republic of China address its water reclamation needs in the future."
In a complex feat of engineering and international cooperation, the entire oxygenation system was built by BOC in the United Kingdom to strict international standards, and shipped to Shanghai where BOC and Chinese engineers worked together to design and build the barge and install the environmental equipment.
"This project is a great example of BOC's commitment to delivering global environmental solutions," Jinkins adds. "Local co-ordination was provided by our office in Shanghai, with all design, engineering and project management provided by engineers from BOC's office in the UK."
As part of the long-range plan for the cleanup of Suzhou Creek, the barge will undergo performance tests over the next six months on a locked off portion of the stream. If it meets its targeted oxygenation objectives, China is likely to build an additional four-to-six oxygenation barges.
In addition, China has also targeted Lake Taihu at the headwaters of Suzhou Creek for environmental clean up. The Jiangsu Environmental Protection Bureau has announced that they will invest $1.76 billion over the next five years to build 65 wastewater treatment plants to counter the inflow of industrial and agricultural waste from nearby areas.
"Chinese environmental representatives are very interested in our water treatment capabilities, including newer technologies like LoproxTM wet oxidation and Super Critical Water Oxidation, (SCWO)," said Caroline Liu, project manager, BOC China.