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China Environ Prot (EP) Industry, Technology, Solid Waste Mgt, Liquid Treat: News & Discussions

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今天 13:36 来自 专业版微博
【围观 | 全球首个基于超超临界燃煤发电机组的碳捕集测试平台正式进入调试阶段】12月23日,中国能建规划设计集团广东院EPC总承包建设的华润海丰电厂碳捕集测试平台通过全球首台20吨/天级膜分离法碳捕集系统,成功捕集到第一罐二氧化碳。这标志着亚洲首个多线程国际碳捕集测试平台,全球首个基于超超临界燃煤发电机组的碳捕集测试平台正式进入调试阶段。
Today 13:36
[The world's first carbon capture test platform based on ultra-supercritical coal-fired generating units officially entered the commissioning phase]

On December 23, China Resources Haifeng Power Plant carbon capture test platform, built by EPC General Contractor of China Energy Construction Planning and Design Group, using the world's first 20-ton/day membrane separation carbon capture system has successfully captured its first canister of carbon dioxide. This marks the first multi-threaded international carbon capture test platform in Asia; and the world's first carbon capture test platform based on ultra-supercritical coal-fired generating units officially entered the commissioning phase.

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China's first law on soil pollution takes effect

CGTN

2019-01-01 22:06 GMT+8


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To better protect and improve the living and ecological environment, a law on soil pollution was passed last August and has taken effect on Tuesday.

The law, named Soil Pollution Prevention and Control Law of the People's Republic of China, is the country's first law targeting soil pollution.

According to the law, national standards for soil pollution risk control will be set by the environmental authority of the State Council based on soil contamination status, public health risks and ecological risks, among others.

The law also states that a nationwide soil condition census should be conducted at least once every 10 years.

A network of monitoring stations should be established nationwide, with data and other information collected shared among authorities in environmental, agricultural, natural resources, housing, water resources, health and forestry and grassland sectors, it said.

Environmental and health authorities of the State Council are required to conduct screening and evaluation of toxic and harmful substances in the soil and make public a list of them.

The central and provincial-level governments should establish funds to prevent and control soil pollution, according to the law.

The new law has strengthened the responsibilities of governments and polluters in controlling and correcting soil pollution.

Farmlands polluters are required to make rehabilitation plans, put them on government record, and carry out the plans. Upon completion, polluters should entrust professional institutions to evaluate the effects and report the results to local governments.

Environmental departments of governments at or above the provincial level should summon leading officials at or above the municipal level for admonitory talks on problems in their jurisdiction, such as serious soil pollution, inadequate prevention and control measures, and strong public discontent over pollution.

The legislation on soil protection is of great significance, and has provided a legal guarantee for the country's fight for clean soil, said Zhang Guilong, deputy director of the Office for Administrative Law of the Legislative Affairs Commission of the National People's Congress (NPC) Standing Committee.

China has escalated its fight against pollution through legislation. The NPC revised the law on air pollution in 2015 and the law on water pollution in 2017, restricting various sources of pollution and making environmental data more transparent.

https://news.cgtn.com/news/3d3d674d314d7a4e31457a6333566d54/share_p.html

@+4vsgorillas-Apebane
 
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China’s war on particulate air pollution is causing more severe ozone pollution
PM 2.5 pollution is falling but ground-level ozone pollution is on the rise

By Leah Burrows
December 31, 2018

In early 2013, the Chinese government declared a war on air pollution and began instituting stringent policies to regulate the emissions of fine particulate matter, a pollutant known as PM 2.5. Cities restricted the number of cars on the road, coal-fired power plants reduced emissions or were shuttered and replaced with natural gas. Over the course of five years, PM 2.5 concentrations in eastern China have fallen nearly 40 percent.

The number of air quality monitoring stations across the country has grown to over 1,000, collecting unprecedented amounts of environmental data. Sifting through that data, researchers from the John A. Paulson School of Engineering and Applied Sciences (SEAS) and the Nanjing University of Information Science & Technology (NUIST), found something surprising: While PM 2.5 pollution is falling, harmful ground-level ozone pollution is on the rise, especially in large cities.

As it turns out, when it comes to the war on air pollution, chemistry is a formidable foe.

Ozone is the main ingredient in smog and has been studied since it began choking cities in the U.S. in the early 1950s. Ozone is formed through a series of chemical reactions, starting with the oxidation of volatile organic compounds (VOCs). This reaction forms chemical radicals, which drives reactions among oxides of nitrogen (NOx) and VOCs to produce ozone in the presence of sunlight. Both NOx and VOCs are emitted from fossil fuel combustion, and VOCs can also be emitted from industrial sources.

The researchers from SEAS and NUIST found that particulate matter acts like a sponge for the radicals needed to generate ozone pollution, sucking them up and preventing them from producing ozone.

“There was so much particulate matter in Chinese cities that it stunted the ozone production,” said Daniel Jacob, the Vasco McCoy Family Professor of Atmospheric Chemistry and Environmental Engineering, and co-corresponding author of the study.

But the rapid reduction of PM 2.5 dramatically altered the chemistry of the atmosphere, leaving more radicals available to produce ozone.

“We haven’t observed this happening anywhere else because no other country has moved this quickly to reduce particulate matter emissions,” said Jacob. “It took China four years to do what took 30 years in the U.S.”

Despite this rapid reduction, China still has a long way to go to meet its air quality goals.

“As PM 2.5 levels continue to fall, ozone is going to keep getting worse,” said Ke Li, a postdoctoral fellow at SEAS and first author of the study. “Results from this study suggest that extra efforts are needed to reduce NOx and VOC emissions in order to stem the tide of ozone pollution,” said Hong Liao at NUIST who is the co-corresponding author of this work.

The research is published in PNAS. It was co-authored by Lu Shen, Qiang Zhang, and Kelvin H. Bates.

It was supported by NUIST through the Harvard-NUIST Joint Laboratory for Air Quality and Climate (JLAQC).



China’s war on particulate air pollution is causing more severe ozone pollution | Harvard John A. Paulson School of Engineering and Applied Sciences

Ke Li, Daniel J. Jacob, Hong Liao, Lu Shen, Qiang Zhang, Kelvin H. Bates. Anthropogenic drivers of 2013–2017 trends in summer surface ozone in China. Proceedings of the National Academy of Sciences, 2018; 201812168 DOI: 10.1073/pnas.1812168116
 
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Collapsing Glaciers Threaten Asia’s Water Supplies
Jan 03, 2019

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The Tsho Rolpa valley in Nepal, where increased meltwater from glaciers in the Himalayas puts local communities at risk. Credit: Jonas Gratzer/LightRocket/Getty

The ‘third pole’ is the planet’s largest reservoir of ice and snow after the Arctic and Antarctic. It encompasses the Himalaya–Hindu Kush mountain ranges and the Tibetan Plateau. The region hosts the world’s 14 highest mountains and about 100,000 square kilometres of glaciers (an area the size of Iceland). Meltwater feeds ten great rivers, including the Indus, Brahmaputra, Ganges, Yellow and Yangtze, on which almost one-fifth of the world’s population depends.

Climate change threatens this vast frozen reservoir (see ‘Third pole warming’). For the past 50 years, glaciers in the Himalayas and Tibetan Plateau have been shrinking. Those in the Tian Shan mountains to the north have lost one-quarter of their mass, and might lose as much as half by mid-century. Their meltwater is expanding lakes. River flows at the start of summer peak earlier than they did 30 years ago. And weather patterns are shifting. A weaker Indian monsoon is reducing precipitation in the Himalayas and southern Tibetan Plateau; snow and rain are increasing in the northwestern Tibetan Plateau and Pamir Mountains.

Researchers still don’t understand why these changes vary so much across the region, or how they will pan out. Some rivers in central Asia, such as those feeding the Aral Sea, are projected to gradually dry up. Others — such as the upper Ganges, Brahmaputra, Salween and Mekong — are likely to swell, at least until 2050.

Already, Tibetan communities are dealing with the impacts of collapsing glaciers. In October 2018, debris dammed the Yarlung Tsangpo River, which forms the headwater of the Brahmaputra, threatening areas as far afield as Bangladesh with flooding.

Communities need information to help them manage risks and water supplies. They need to know which glaciers are melting fastest, and how changing snowfall and a warmer climate are affecting the accumulation and disappearance of ice and the volumes of rivers and lakes...

For more information, please refer to Nature.



Collapsing Glaciers Threaten Asia’s Water Supplies---Chinese Academy of Sciences
 
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Tuesday, January 08, 2019, 14:31
Giving up gas: China's Shenzhen switches to electric taxis
By Associated Press

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In this Jan 7, 2019, photo, new electric-powered taxis are seen in Shenzhen city, south China's Guangdong province. (VINCENT YU / AP)

SHENZHEN, China — One of China's major cities has reached an environmental milestone: an almost entirely electric-powered taxi fleet.

The high-tech hub of Shenzhen in southern China announced at the start of this year that 99 percent of the 21,689 taxis operating in the city were electric. Last year, it still had 7,500 gasoline-powered taxis on the roads. A few can still be found, but electric ones far outnumber them.

The metropolis of 12.5 million is the second to achieve this feat in China and the largest. The northern China city of Taiyuan, with a population of 4.3 million, has had only electric taxis since 2016.

ALSO READ: Ministry unveils plans to power up lithium-ion battery firms

Shenzhen "has taken the lead among major Chinese cities," said Cui Dongshu, the secretary-general of the China Passenger Car Association.

Shenzhen's bus fleet has been all-electric since 2017. It's one of 13 pilot cities promoting alternative-energy public transport to cut smog and develop the alternative energy industry, the Shenzhen Municipality Transport Committee said.

Beijing and other Chinese cities are served by legions of electric scooters, bicycles and three-wheeled delivery vehicles that help reduce emissions — and sometimes startle pedestrians with their near-silent operation.

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In this Jan 7, 2019, photo, new electric-powered taxis are seen in Shenzhen city, south China's Guangdong province. (VINCENT YU / AP)

Shenzhen's 20,000-plus electric taxis will reduce carbon emissions by about 850,000 tons a year, the city's transport committee said. However, the all-electric initiative doesn't include Uber-like ride-hailing and ride-sharing services, which are popular in China.

READ MORE: Musk breaks ground at Shanghai gigafactory to launch China push

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In this Jan 7, 2019, photo, new electric-powered taxi are charged at a public charging station in Shenzhen city, south China's Guangdong province. (VINCENT YU / AP)

Providing places to recharge taxis has been a big hurdle since Shenzhen rolled out its first 100 electric cabs in 2010. Cui praised the city for its network of about 20,000 public charging stations, which he said should be enough to meet most of the demand.

The electric taxis are equipped with an on-board terminal that tells drivers where taxis are in short supply, such as the airport, train station or other locations. It also clearly displays the fare and the taxi's route, which the Shenzhen transport committee said would help prevent drivers from overcharging or taking a roundabout route.

Shenzhen, which borders Hong Kong, is home to Huawei Technologies and a host of other Chinese technology companies.
 
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Chinese scientists develop CO2 monitoring system
By Zhang Hui in Shijiazhuang Source:Global Times Published: 2019/1/8 22:08:40

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A Hebei Province Meteorological Bureau employee monitors data from the plane's carbon dioxide collection machine. Photo: Zhang Hui/GT

Chinese scientists have developed a way to monitor carbon dioxide from space, air and ground in the Beijing-Tianjin-Hebei region, one of most polluted regions in the world, to help the government identify emissions peak and fulfill its Paris Agreement commitment.

The scheme would help scientists obtain comprehensive concentration data in the region, and establish a real-time carbon dioxide concentration monitoring system to better identify emissions sources and come up with reduction and anti-smog measures, scientists said.

For air monitoring, meteorologists used a plane equipped with a high precision carbon dioxide real-time monitoring system to fly at 11 different altitudes from 600 to 5,100 meters over Shijiazhuang, Hebei Province to measure carbon dioxide concentrations at different levels, Wu Guomin, an engineer at the Hebei Province Meteorological Bureau, told the Global Times on Tuesday.

Wu, who was on the plane, recorded the data, including the location, the carbon dioxide concentration and speed of the plane.

Due to massive emissions of pollutants from factories and vehicles, the Beijing-Tianjin-Hebei region topped the world in carbon emissions intensity, and studies of carbon dioxide and other pollutants in the air could better help China tackle smog, Zeng Ning, a professor at the Chinese Academy of Sciences' Institute of Atmospheric Physics.

The monitor and studies would help China form its carbon dioxide monitoring system which could help China identify the emissions peak. China aims to hit peak emissions of carbon dioxide by 2030, Zeng said.

The system would also provide the world a guide as global science communities try to develop integrated greenhouse gas monitoring systems to aid the climate mitigation targets set by global agreements, such as the Paris Agreement, Zeng said.

China's carbon dioxide monitoring satellite, TanSat, launched in 2016, was set to target mode to focus on the Beijing-Tianjin-Hebei region this week to help scientists gather more data, Yao Bo, chief scientist of greenhouse gas measurements at the Meteorological Observation Center of the China Meteorological Administration, told the Global Times on Tuesday.

On the ground, scientists relied on vehicles for mobile monitoring and six ground-based tower stations in the region, Yao said.
 
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COMMENT | 09 JANUARY 2019
How to globalize the circular economy | Nature

Set up an international platform to share data and experiences, and coordinate industrial policies and trade to conserve resources and energy, urge Yong Geng, Joseph Sarkis and Raimund Bleischwitz.


Yong Geng, Joseph Sarkis & Raimund Bleischwitz

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A worker checks polyester fibres made from waste plastic bottles in Binzhou, China. Credit: Yoshinori Kageyama/Barcroft Media/Getty

Industry must rethink its approach to resources. Manufacturing is wasteful. It takes a tonne of metal, silicon and plastic to produce a laptop computer weighing a few kilograms. Waste is an afterthought. Each year, 8 million tonnes of plastic are dumped into the oceans. Greenhouse-gas emissions are out of control. Producing cement releases as much carbon dioxide into the atmosphere each year as Europe’s 300 million cars: 1.5 billion tonnes1. Water is squandered — we calculate that it takes 1,250 litres of water to grow 1 kilogram of rice in China.

Global demand for resources is projected to double by 20502. Viable supplies of rare metals, such as lanthanum and yttrium, could run out. Carbon budgets would be blown and biodiversity ravaged.

Clearly, resources need to be managed more sustainably. Just 6% of materials are recycled3. This is surprisingly little, given the potential savings. Reprocessing aluminium takes a fraction of the energy needed to extract the metal from its ore4. Products made from reworked plastics are around 80% cheaper than those using new materials if the costs of collecting, sorting and processing are kept low. New revenue streams open up from materials that would otherwise be discarded, and disposal costs are avoided.

A handful of nations are embracing this approach. For the past 20 years, China and South Korea have operated industrial parks that use the principles of circular economy to link the supply chains of companies and reuse or recycle common materials. China has certified more than 50 such parks. The European Union and Japan have legislated on eco-design, made producers responsible for the after-use of their products and boosted markets for secondary materials. Some US states and companies have set up networks for sharing and recycling resources5. Brazil and India use informal recycling systems.

But the sum of all these efforts remains paltry. Projects operate in isolation and have not shifted the behemoths of global industry.

We call for a global initiative to advance the circular economy. It should be led by the United Nations and involve G20 countries, the World Economic Forum, industry and citizen-oriented organizations. It should gather data, draw lessons, trigger learning and share experiences on how businesses and people use and recycle resources. Policies, missions and incentives should be developed to spread circular-economy practices worldwide.

Reduce, reuse and recycle
The circular economy operates on four levels: products, companies, networks and policies. First, products need to be designed to be recyclable and reusable, based on green supply chains and manufactured using clean methods. Second, companies need new business models to create private and public value. Third, networks of companies and customers that produce and consume key products, such as cars, need to be linked. Fourth, policies are needed to support markets.

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Discarded electronic cables being offloaded for recycling in Roorkee, northern India.Credit: Dhiraj Singh/Bloomberg/Getty

Sustainable materials, especially biomaterials, are key. For instance, biomass can be used as a chemical feedstock for products or packaging, or might be burnt or turned into fuels for transport, heat and electricity6. Plastics must be recyclable: polymer production worldwide releases 400 million tonnes of greenhouse gases a year7. China’s circular-economy industrial parks saved 14 million tonnes of greenhouse gases in 2016 by recycling plastics, equivalent to taking more than 3 million cars off the road8.

New markets and business models emerge. For instance, a copper-smelting plant might recycle old wires and components as well as extract metal from minerals. Vehicle manufacturers might take back cars and upgrade parts so that they run for longer. When a car reaches the end of its useful life, it could be dismantled and its metals and plastics used to make other products. Customers could access mobility services rather than purchase cars.

China, Japan and South Korea have national strategies for enabling the circular economy. In 2008, China approved its law to reduce, reuse and recycle municipal waste and industrial by-products. The government has invested billions of yuan in demonstration projects, deployed tax incentives and issued permits that allow industry to pursue activities that were previously banned, such as selling relatively clean waste water (‘grey water’). Extending such practices would save Chinese businesses and households 32 trillion yuan (US$4.6 trillion) in 2030, or 14% of its projected gross domestic product that year9.

Brazil, India and the United States take a bottom-up approach. For example, Rede Asta, a network of more than 60 co-operative women’s groups across 10 Brazilian states, has created an online platform to support artisans who recover materials from waste.

The EU is doing a bit of both. It has adopted binding targets on municipal waste. By 2030, member states must reuse and recycle at least 65% of waste and send no more than 10% to landfill. The goal is for all plastics to be reusable and for 75% of packaging to be recycled. EU platforms tackle food waste and finance the circular economy. Regulations target electrical and electronic waste, scrap vehicles and batteries. The EU is also investing in regional innovations, such as supporting networks of companies that recycle clothing.

Most of these circular-economy initiatives have saved materials, waste, energy and emissions. In Kawasaki, Japan, reusing industrial and municipal wastes in cement manufacturing has reduced greenhouse-gas emissions by about 15% (41,300 tonnes per year) since 2009, and saves 272,000 tonnes of virgin materials annually10. A typical Chinese industrial park, such as that in Liuzhou, Guangxi province, saves more than 2 million tonnes of CO2 emissions a year by using less energy and circulating materials11.

The Slovenian city of Ljubljana now generates 41% less waste per head of population than the European average. In a 2018 Eurobarometer survey, 41% of small businesses and 53% of large companies across Europe reported having decreased production costs by following circular-economy principles; one-quarter said that they are designing products that are easier to maintain, repair or reuse.

Nonetheless, circular-economy networks are too small.

Fragmented approach
No international policy effort integrates circular-economy approaches. Yet these would contribute to many of the UN Sustainable Development Goals (SDGs), including those on water, energy, economic growth and climate change12 (SDGs 6, 7, 8 and 13).

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Source: http://www.world-aluminium.org/statistics/massflow

Some industries are starting to monitor material flows globally. For example, the aluminium sector uses a model of supplies of the metal, from mining to disposal (see ‘Global aluminium cycle’). The cement sustainability initiative uses its products and waste for energy production. In 2011, 24 cement companies in 100 countries reported having substituted 13% of their primary fuels with those derived from waste, reducing CO2 emissions by 17 million tonnes per year13.

Accurate, traceable and secure data about the flows and stocks of most materials, and on the costs and efficiencies of industrial processes, are scarce. This makes it hard to generate projections and policies, and limits awareness of the benefits of the circular economy. For example, only a few eco-industrial parks and regions issue yearly reports on waste and recycling. Stocks in the built environment — for example, steel in buildings — and in other goods are not counted.

Circular-economy concepts are more often celebrated than critiqued. Economic models have many gaps and rely on assumptions. For example, the costs of changing production processes, purchasing practices and organizational routines within a business are often taken to be low or zero. The impacts on extractive industries that would lose out, such as mining in certain countries, are not assessed. Projecting future market prices for raw materials and secondary resources is challenging. And policies can have unintended consequences. For example, incentivizing plastic recycling can generate more plastics: if lower prices increase demand, more plastic is needed to replace material that has degraded during recycling.

Researchers need to collaborate more —with industry and non-profit organizations, as well as across disciplines from sociology and economics to engineering and science. The International Institute for Environmental Studies in Peterborough, Canada, which includes 19 universities and research institutes around the world, has set the circular economy as a priority area and supports collaborative PhD programmes. And the National Natural Science Foundation of China has invested in our work. But many other multilateral research organizations, such as Future Earth, have no programmes on the circular economy. Even those that are devoted to it, such as the Ellen MacArthur Foundation in Cowes, UK, are limited in their geographical scope.

Community engagement is crucial. Consumers can drive producers to make changes and help to design solutions. Germany encouraged many households to transition to renewable energy in the 2000s by enabling them to connect their solar panels to the grid and receive payment for the electricity produced, along with incentivizing utility companies to purchase the electricity. Yet there is a lack of data on household and municipal consumption and recycling worldwide.

Encouraging citizens to reuse materials can, perversely, limit access to resources in some parts of the world. Informal recycling networks are common in China and in many African nations. But scavenging waste removes it from formal networks that can process it more efficiently. As a result, materials become scarce and costs rise.

Circular-economy principles would help organizations to hedge against volatility in the prices of commodities such as copper and rebalance flows of goods, scrap and used products. Currently, uneven trade balances result in empty trucks and shipping containers. These should be filled with waste materials such as cardboard, wood and metals, which can be returned to the producers.

Global trade in waste is a good place to start. For example, China banned imports of most waste types in 2018, and Thailand plans to stop importing plastic waste from 2021. That material is now being sent to countries that have weaker waste regulations, such as Vietnam, Malaysia, Indonesia, Cambodia and the Philippines, where dumped plastics and electronics contaminate soil and water. An international covenant, as well as take-back approaches and policies, are needed for metals-based industries.

International agreement
A global strategy for the circular economy must include the following five steps.

First, a global database should be set up to capture links between resource uses14. This should be run by international organizations such as the UN Environment Programme (UNEP) and the World Economic Forum, with support from national agencies. It should include indicators on flows of materials, water and energy, as well as information on stocks in the built environment, production costs and market trends. Gaps can be filled through case studies and modelling.

Supportive nations such as China, Japan, Germany and the United Kingdom should provide initial funding for this, supplemented by industry. A modest fee might be levied on purchases of companies’ shares in stock exchanges, as happens in France. Exporters of raw materials might increase royalties on production and set up sovereign wealth funds to invest the surplus in supply-chain management and sustainable growth. This would build capabilities in a circular economy, leading to more diversified and resilient industries and economies.

Second, a global platform should be established for sharing knowledge about the circular economy. The global Green Growth Knowledge Platform in Seoul is a good model. It was formed by the World Bank, UNEP and the Organisation for Economic Co-operation and Development to host information and share lessons on sustainable economic practices. Funding would come from countries with similar goals and from international organizations and companies that would benefit.

Third, international alliances are needed to promote large-scale experimentation. These should develop governance and financial innovations for cities and sectors, especially water, energy, food, mobility and construction. Economies that rely on exporting raw materials, such as many in Africa, might need financial help from other resource-rich regions to transform. For example, Chile, Canada and Scandinavia are pioneers of eco-innovation among raw-materials exporters.

Fourth, standards for performance measurement, reporting, accounting and future products need to be developed and harmonized. Key performance indicators should be derived through the International Organization for Standardization. These could be based on environmental and corporate social responsibility systems.

Finally, policymakers should develop ways to enforce regulations, settle disputes and implement sanctions on a global scale. This should start with voluntary regulatory and reporting initiatives, kept in check through ‘naming and shaming’ by citizens, the media and non-governmental organizations.

Ultimately, all of these efforts must cohere to form an international agreement on sustainable resource management, covering reporting, extraction sites, trade patterns and incentives.

Nature 565, 153-155 (2019)

doi: 10.1038/d41586-019-00017-z
 
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PUBLIC RELEASE: 16-JAN-2019
Record-breaking ocean temperatures point to trends of global warming
2018 continues record global ocean warming

INSTITUTE OF ATMOSPHERIC PHYSICS, CHINESE ACADEMY OF SCIENCES

The study is highlighted on the cover of the March 2019 issue of Advances in Atmospheric Sciences. The increasing concentrations of heat-trapping gases, such as carbon dioxide, represented by a phoenix on the cover, produce an energy imbalance between incoming solar radiation and outgoing longwave radiation that leads to global heating. Most of the heat ends up deposited in the world's oceans, with the rest melting the ice and warming the atmosphere and land. CREDIT: Advances in Atmospheric Sciences

An international team, released the 2018 ocean heat content observations in Advances in Atmospheric Sciences on January 16, 2019. The newly available observations show that the year 2018 is the hottest year ever recorded for the global ocean, as evident in its highest ocean heat content since 1950s in the upper 2000m. Compared to the average value that was measured 1981 - 2010, the 2018 ocean heat anomaly is approximately 19.67 x 1022 Joules, a unit measure for heat. This heat increase in 2018 relative to 2017 is ~388 times more than the total electricity generation by China in 2017, and ~ 100 million times more than the Hiroshima bomb of heat. The years 2017, 2015, 2016 and 2014 came in just after 2018 in order of decreasing ocean heat content. The values are based on an ocean temperature analysis product conducted by the Institute of Atmospheric Physics (IAP) at Chinese Academy of Sciences.

The mew study is shedding new light onto how much oceanic water temperatures have been changing over the years. The change in ocean heat content is considered to be one of the best - if not the best - way to measure climate change driven by greenhouse gasses emitted by human activities. This is because the global warming is driven by the Earth's energy imbalance due to more greenhouse gasses in the air, and the vast majority (more than 90%) of global warming heat is deposited in the world's oceans. Also, ocean heat record is less impacted by natural fluctuations and it is a robust indicator of climate change. Therefore, record-breaking ocean heat record serves as direct evidence for global warming and represents basis for adaptation to and mitigation of climate change.

"The new data, together with a rich body of literature, serve as an additional warning to both the government and the general public that we are experiencing inevitable global warming. The ocean and global warming have already taken place and caused serious damage and losses to both the economy and society," states Dr. Lijing Cheng, the lead author of the report. He also recommends additional actions to be taken immediately in order to minimize future warming trends.

The researchers also highlight that the increases in ocean water heat, which they prognosticate will continue to rise, are causes for additional concern to both the scientific community as well as the public at large. This is because the higher temperatures result in an increase of sea level that comes with its own set of consequences. Examples of these include salt water contaminating fresh water wells which impacts the quality of drinking water, a compromised coastal infrastructure as well as increased likelihoods of storms. Along those lines, increases in ocean heat also have severe consequences for the global weather system because they result in much more intense storms and heavy rains. Other consequences of increasing ocean water temperatures include bleaching and death of corals, melting sea ice, increasing marine heat waves, or long periods of extreme war mesa surface temperatures, as well as impacts on natural variability. Ocean heating has also been connected to increased drought intensity, heatwaves as well as risk of wildlife.

The researchers' future aims focus on a deeper understanding of the effects of warmer ocean waters. As such, the IAP and collaborators will continue to monitor trends as well as focus on understanding the climate system as well as the ocean's role in it. By better understanding the potential dangers that increased ocean heat brings with it, the researchers hope to be a valuable economic resource to the fishing and tourism industries, for example. "These scientific activities will eventually serve the general public and government by enabling them to make informed decisions and thus create a better and more sustainable future for all," Cheng adds.


Record-breaking ocean temperatures point to trends of global warming | EurekAlert! Science News

Lijing Cheng, Jiang Zhu, John Abraham, Kevin E. Trenberth, John T. Fasullo, Bin Zhang, Fujiang Yu, Liying Wan, Xingrong Chen, Xiangzhou Song. 2018 Continues Record Global Ocean Warming. Advances in Atmospheric Sciences (2019). DOI: 10.1007/s00376-019-8276-x
 
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Sinopec Makes China's First Low Sulphur Marine Fuel One Year Before Pollution Curbs
TANG SHIHUA
DATE : JAN 24 2019/SOURCE : YICAI

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Sinopec Makes China's First Low Sulphur Marine Fuel One Year Before Pollution Curbs

(Yicai Global) Jan. 24 -- A unit of China Petroleum & Chemical, a state-owned crude oil giant, has become the first Chinese firm to produce low sulphur fuel oil for ships. The combustible poses smaller impact on the environment than traditional marine fuels.

Sinopec Shanghai Petrochemical has shipped its first batch of low sulphur fuel oil for vessels on international routes to use, state-backed China News Agency reported yesterday.

The International Maritime Organization has stipulated that global ships must use marine fuel with a sulfur content no more than 0.5 percent by January 1, 2020, which is much lower than the current maximum of 3.5 percent.

Sinopec Shanghai Petrochemical is ready to promote the new product rapidly with the full advantage of Sinopec's industrial chain, the report added.
 
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ENVIRONMENTAL SCIENCES * 11 FEBRUARY 2019
Earth’s green patches become greener — and China is leading the way
Tree-planting campaigns and crop expansion in the planet’s most populous nation are driving an expansion in leaf coverage.

Despite the loss of vast tracts of tropical forest, Earth has grown markedly greener since the turn of the millennium — with the most profound changes seen in China and India.

Chi Chen at Boston University in Massachusetts and his colleagues used satellite data to track the total surface area covered by leaves in the planet’s vegetated zones. They found that between 2000 and 2017, this area gained a number of hectares roughly equal in size to the Amazon rainforest. One-third of vegetated lands are greening, whereas only 5% are getting browner.

Greening is most pronounced in China, thanks mainly to forest conservation and tree planting, as well as intense crop cultivation. In India, irrigation and fertilizer use seem to be driving the greening of cropland vegetation.

Globally, rising carbon dioxide concentrations also seem to be playing a part, but that part is probably smaller than previously assumed, the scientists say. They add that although greening farmlands are becoming more productive, the gains do not make up for environmental damage resulting from tropical deforestation.



Earth’s green patches become greener — and China is leading the way : Research Highlights | Nature.com
 
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Window screens can filter pollutants
By Zhu Lixin | China Daily | Updated: 2019-02-14 06:51
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A woman wearing a face mask rides a electric bicycle during a polluted day in Hefei, Anhui province on Jan 18, 2014. [Photo/VCG]

A group of Chinese scientists have developed an affordable window screen that can block nearly all hazardous particulates, including tiny PM2.5 particles, its developers said.

The breakthrough was produced by a team led by materials science professor Yu Shuhong with the University of Science and Technology of China-also a three-time winner of the State Natural Sciences Award-according to their newly published paper in iScience, an open-access journal of Cell Press, based in the United States.

The online version is now available on the journal's website and will be in the print edition on Feb 22.

In its best test performance, the screen quickly filtered 99.65 percent of the fine particulate matter, which means the average concentration of PM2.5 would be lowered from 248 micrograms per cubic meter to 32.9 micrograms within 50 seconds, improving the air quality from severely polluted to good, said Liu Jianwei, associate professor of USTC and author of the paper.

Liu said coating nylon mesh with an ink with tiny nanowire structures is key to giving the screen "new properties".

The researchers found that passing a 10 watt electrical current through the screening material allows it to stop 99.65 percent of fine particulate matter like PM2.5 from passing through.

Making a 7.5 square meter sheet of the screen costs only 100 yuan ($15) and takes about 20 minutes, and the scientists think it will be easy to expand production, according to the paper.

When it gets dirty, it can be easily cleaned by immersing it in alcohol.

"The performance will remain stable even after 100 cycles of haze filtration and cleaning," Liu said. Also, Liu said, "the color darkens when the voltage increases" Liu said, meaning that adjusting the current changes its transparency by darkening or lightening the particles adhering to the fabric.

The low-voltage technology to adjust light entering a building can help save energy as well.

"The voltage is safe even for skin contact for humans," said the scientist.

Though Liu said he thinks the new material has good prospects for commercial applications, he said the team has not yet applied for a patent.

"As researchers, we are not good at commercial operations, but perhaps in the foreseeable future, engineers will help us bring the lab's achievement into commercial production." Liu said.

The fight against air pollution has prompted scientists to develop new materials.
 
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Study evaluates China’s progress in establishing accounting measures to reinforce its Paris pledge
Firms learn from experience in the measurement, reporting, and verification of carbon emissions under China’s emissions trading systems.

Mark Dwortzan | MIT Joint Program on the Science and Policy of Global Change
February 1, 2019


The latest round of United Nations climate talks in Poland in December sought to get the world on track to meet the 2015 Paris Agreement’s long-term goal of keeping global warming well below two degrees Celsius. Toward that end, negotiators from the agreement’s nearly 200 signatory nations were asked to report on their country or region’s progress toward fulfilling its Paris pledge, or Nationally Determined Contributions (NDC). But just how accurate were those progress reports?

That depends on the integrity of the underlying greenhouse gas emissions data that each country used to assess its performance toward meeting the emissions reduction targets spelled out in its NDC. The measurement, reporting and verification (MRV) of a country’s overall emissions and emissions reductions involves culling and validating emissions data from multiple sources, including firms — industrial, nonprofit, and government entities — in different economic sectors. Building reliable firm-based systems for emissions MRV is no easy task, especially in developing countries where misreporting of environmental data can be significant. But a new MIT-led study in Nature Climate Change identifies challenges and opportunities to achieve that goal.

Co-authored by researchers at MIT, Tsinghua University, and Wuhan University, the study focuses on China, the world’s largest carbon dioxide (CO2) emitter. China’s climate-change mitigation strategy centers on a national emissions trading system (ETS) whose success depends upon accurate emissions reporting at the firm level.

Using data obtained from two of China’s pilot regional ETS programs, one in Beijing, a highly developed major city, the other in Hubei, a less developed province, the researchers compared firms’ self-reported CO2 emissions numbers with those verified by independent third parties. The average discrepancy in these numbers decreased significantly in Beijing, going from 17 percent in 2012 to 4 percent in 2014 and 2015 for approximately 400 firms. In Hubei, which launched its system one year later, the number of discrepancies started lower and showed a statistically-insignificant decrease (from 6 percent in 2014 to 5 percent in 2015).

“We conducted multiple tests to determine if there was any evidence for manipulation or collusion in this process,” says MIT Joint Program Research Scientist Da Zhang, the lead author of the study. “While we observed no evidence of this behavior, we did find that firms increasingly reported emissions correctly over the years, resulting in fewer reporting errors and more agreement with verifiers’ numbers.”

In Beijing, the average numbers of reporting errors per firm decreased from 3.7 to 1.9 from 2012 to 2015, with the greatest drops in errors related to inattention and misunderstanding the rules. This tracks with previous studies indicating a reduction in reporting errors after one or two survey rounds.

The study emphasized that building effective MRV systems at firms in China and other developing countries takes time, resources and attention to detail. Among its recommendations to increase reporting accuracy and prevent manipulation or collusion is to provide external funding from governments or multilateral entities, at least in early years, to pay the independent verifiers. If firms pay for verification, government back-checks are essential to ensure reporting integrity. The study also maintains that strong law enforcement will be necessary to punish any detected incidents of collusion between verifiers and firms.

“Policy efforts to meet the Paris Agreement require robust monitoring, reporting and verification of greenhouse gas emissions to demonstrate real progress,” says MIT Sloan School of Management Assistant Professor Valerie Karplus, a co-author of the study and faculty affiliate of the Joint Program. “Continuously assessing performance will be important to raising confidence in the effectiveness of nascent market-based systems, especially in countries where prior experience with such systems is limited.”

The research was supported by the National Science Foundation of China and the U.S. Energy Information Agency and a consortium of industrial sponsors and federal grants that fund the work of the MIT Joint Program.



Study evaluates China’s progress in establishing accounting measures to reinforce its Paris pledge | MIT News
 
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Scientists Develop Metal-free Photocatalyst to Purify Pathogen-rich Water in Minutes---Chinese Academy of Sciences
Feb 08, 2019

Scientists across the world have been racking their brains to solve the global problem of clean water scarcity. Chinese scientists have recently found a new way to purify pathogen-rich water with high efficiency and without using metal.

With a metal-free photocatalyst jointly developed by researchers from Yangzhou University (YZU) and the Institute of Process Engineering (IPE) of the Chinese Academy of Sciences, and University of Technology Sydney (UTS), this method can provide standard drinking water in 30 minutes with disinfection efficiency over 99.9999% under visible light irradiation.

This discovery was published in Chem on February 7.

Photocatalytic disinfection is a promising approach due to its low cost and direct utilization of sunlight. However, current popular metal-based nanomaterial catalysts may lead to secondary pollution due to the inevitable release of metal ions. Metal-free photocatalysts developed later, however, have much lower efficiency.

"We investigated a facile wet-chemical method to site-selectively introduce the certain groups at the edges of graphitic carbon nitride (g-C3N4) nanosheets," said WANG Dan, a principal investigator at IPE.

These introduced groups not only induced an upward bending of their energy band, improving oxygen molecule adsorption, but also promoted the separation of photo-generated electron-hole pairs, according to WANG Dan.

"Its first-order disinfection rate was five times higher than that of previously reported best metal-free photocatalysts with only 1/10 catalyst consumption," said WANG Chengyin from YZU. The catalytic activity was also comparable to the best metal-based photocatalyst.

Moreover, this photocatalyst can be fixed on substrates, thus significantly reducing the potential ecotoxicity caused by dispersed nanomaterials in drinkable water.

A facile protocol for incorporating this metal-free photocatalyst into portable devices for highly efficient water disinfection is now available, according to researchers.

"This work presents a facile preparation strategy for highly efficient metal-free photo-disinfection catalysts," said WANG Dan. "It also provides a new strategy for controlling the surface charge densities of carbon materials."

More unique properties and promising applications in catalysis, electronics, and targeted therapy are expected, based on the selective functionalization of two-dimensional carbon nanomaterials, said WANG Guoxiu from UTS.

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Figure The electron withdrawing groups were selectively introduced onto the edge of g-C3N4 nanosheets for photo disinfection. (Image by TENG Zhenyuan and YANG Nailiang)
 
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PUBLIC RELEASE: 26-FEB-2019
New consolidated bio-saccharification technique for lignocellulose conversion developed
CHINESE ACADEMY OF SCIENCES HEADQUARTERS

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Saccharification of pretreated wheat straw under optimal or regular conditions without modification in both 100-mL anaerobic bottles (a) and a 10-L anaerobic fermenter (b). CREDIT: LIU Yajun

A research group from the Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT), Chinese Academy of Sciences, has developed a novel strategy for cost-efficient lignocellulose conversion. Known as consolidated bio-saccharification (CBS), it combines cellulase production and hydrolysis, while separating fermentation from the integrated process by taking fermentable sugar as the target product to couple various downstream fermentation processes.

The industrial conversion of biomass to high-value biofuels and biochemicals is mainly restricted by lignocellulose solubilization. Previously, three strategies had been reported for lignocellulose bioconversion, i.e., separate enzymatic hydrolysis and fermentation (SHF), simultaneous saccharification and fermentation (SSF), and consolidated bioprocessing (CBP).

For SHF and SSF, cellulases are usually produced by fungi aerobically in a different reactor and the enzyme cost is an essential issue to consider. In contrast, CBP integrates enzyme production, cellulose hydrolysis, and fermentation in one step to reduce cellulase and investment costs, but involves relatively low saccharification efficiency and simple products.

The QIBEBT researchers had previously developed a CBS biocatalyst by genetically engineering Clostridium thermocellum, but it took a long time to reach a high saccharification level. Later, a second-generation CBS biocatalyst was developed and key process factors, including the medium, inoculum and substrate load, etc., were optimized to promote saccharification efficiency and further reduce cost.

Using the newly developed biocatalyst and optimal conditions, the CBS process was shortened by 50% using pretreated wheat straw as the substrate. Under such conditions, the sugar yield reached 0.795 g/g and the saccharification level was 89.3% (Fig. 1).

"CBS is expected to be widely used in producing various lignocellulose-derived chemicals, functional foods and pharmaceuticals. The construction of a pilot-scale CBS demonstration is underway," said Prof. CUI Qiu, corresponding author of the study.

The study was published in Biotechnology for Biofuels on Feb 18th and was supported by the Transformational Technologies for Clean Energy and Demonstration program of the Strategic Priority Research Program of the Chinese Academy of Sciences, the National Natural Science Foundation of China, the Key Technology Research and Development Program of Shandong, and the Major Program of the Shandong Provincial Natural Science Foundation.



New consolidated bio-saccharification technique for lignocellulose conversion developed | EurekAlert! Science News
 
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Under China’s tough fight against pollution, gain follows pain for factories

By Shen Weiduo in Dongguan Source:Global Times Published: 2019/2/28

Policies push low-end companies to transform, upgrade
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Workers make rubber products at a factory of Dongguan Ailite Seal Manufacuring Co in Dongguan, South China's Guangdong Province on Tuesday. Photo: Shen Weiduo/GT

A tough campaign by the Chinese government to tackle pollution caused some initial pain for low-end factories in the country's southern manufacturing hub, but companies are now hailing the effort as the driving force for an industrial upgrade that is bringing long-term opportunities.

The campaign has indeed reshaped the local business environment and even promoted the rise of new industries that will help the city transform from a traditional manufacturing base into a smart hub, according to industry participants in Dongguan, South China's Guangdong Province.

"Looking back, you will see the companies that collapsed in the past year were mostly dirty, polluting enterprises that violated environmental regulations and also lacked appropriate business licenses or permits," Zhang Qingming, general manager of Dongguan-based Keweite Packaging Co, told the Global Times on Wednesday.

Zhang added that before the crackdown, many such small companies had a competitive edge over companies that obeyed environmental laws because the former cut corners to lower costs. "That's not a healthy development model," he said.

In July 2018, China released a three-year action plan to win the battle for a blue sky, in a bid to improve air quality. Authorities were urged to adjust industrial structures and promote green development to achieve the goal.

As part of the plan, officials in Dongguan aimed to shut down 5,000 "small, scattered, messy and polluting" companies as of the end of 2018, according to a report from sohu.com.

That led to many closure and large fines for firms in the city, including Zhang's Keweite Packaging, which was fined 400,000 yuan ($59,820) in December 2017 by local authorities for environmental violations.

Still, he believed the efforts will benefit the industry in the long run. "Big companies that have technology and real strength stand out now, and we're rushing to catch up," he said.

Yintec Furniture Co is one of the standouts.

"We have not felt downward pressure, since orders have continued to increase after the environmental campaign," Yintec's general manager, who would only give his surname Li, told the Global Times.

He said some of the orders came to his company after the offending factories were shut down. The company plans to expand capacity since more orders came in the past year, he added.

Li's company exported furniture worth 120 million yuan to Australia last year, and the company is also exploring domestic markets based on its newfound competitiveness.

"Everyone knows the era of making quick money is over. Improving products and management ... that's the only way out," Li noted.

New opportunities

Some emerging industries, which were considered "useless" before, are also rising amid the government's clean air efforts. Dongguan Boyou Nano Material Co is among them.

"We spent about four years researching sprayed electroplate, a more environmental way of doing spraying than the traditional method. It turned out that the technology was very profitable for us after the country's environmental campaign," Yu, a company manager, told the Global Times on Tuesday.

Yu said the company's customers include Hong Kong-based Chow Tai Fook Jewellery Group and Midea Group, an electrical appliance manufacturer based in Guangdong's Foshan. "Thanks to the environmental campaign, we don't need to find customers ... the customers come to us," Yu noted.

Yu said that the technology's application scenario is vast, and it's also cheaper than the traditional method. As a result, the company is striking deals in countries such as Thailand and Indonesia.

But not all are happy. There are also manufacturers like Xu, owner of Dongguan-based Ailite Seal Manufacturing Co, whose company has been under great pressure amid domestic and global uncertainties.

"We complied with regulations, but profits have been further squeezed because the price of raw materials increased by more than 50 percent in the past year due to the campaign," Xu said.

Xu's firm mainly exports to customers in Europe and the US. He said that although the China-US trade war added some pressure, the "environmental campaign has influenced us more."

Xu said small enterprises need time to adjust and upgrade. "I also want a blue sky and am willing to pay for that. I invested 200,000 yuan in upgrading our machines last year, but all these efforts need time and money. Just closing down companies isn't good for anyone."

Newspaper headline: Gain follows pain as factories clean up

http://www.globaltimes.cn/content/1140557.shtml
 
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