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Clean Technologies sentence examples within Adopt Clean Technologies
The article also highlights the importance of a gradual introduction of carbon taxes, allowing the most vulnerable industries a transition moment to adopt clean technologies and/or redirect economic activity to less-GHG-emitting segments.
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Microbial fuel cells (MFCs) that simultaneously remove organic contaminants and recovering metals provide a potential route for industry to adopt clean technologies.
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Clean Technologies sentence examples within Develop Clean Technologies
Finally, firms with more imported emissions tend to have higher reputational risks and larger future stock returns but are less incentivized to develop clean technologies.
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Therefore, this procedure has to be replaced and develop clean technologies such as enzymatic finishing processes.
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Clean Technologies sentence examples within Use Clean Technologies
Counter-arguments on these issues are provided and evidence of the ability and necessity to use clean technologies is provided.
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Increasing price of fossil fuels and public awareness encouraged many countries to use clean technologies in transport and electricity generation sector.
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Clean Technologies sentence examples within Toward Clean Technologies
From a policy point of view, the paper’s results call for strong policy efforts to decisively shift innovation towards clean technologies.
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This is motivated as a response to the changes needed towards clean technologies thus contributing to avoid environmental, economic and social problems caused by the excess use of fossil fuels and the misuse of non-renewable natural resources.
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Clean Technologies sentence examples within Alive Clean Technologies
This article is part of a larger Université de Montréal study conducted with the support of Mitacs and Earth Alive Clean Technologies.
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This article is part of a larger study conducted in India by the authors at theUniversité de Montréal with the support of Mitacs and Earth Alive Clean Technologies.
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Therefore, the elements discussed in this review stick well to the first theme on pollution prevention of the special issue concerning pollution prevention and the application of clean technologies to promote a circular (bio) economy.
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The findings mention that adopting clean technologies using renewable energy might act as a key tool for export quality improvement and mitigation of CO2 emissions.
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The machinability of titanium alloys still represents a demanding challenge and the development of new clean technologies to lubricate and cool is greatly needed.
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Considering the diverse nature of wastewaters from various sugar-manufacturing processes, the development of robust, cost-competitive, sustainable and clean technologies has become a challenging task.
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This relocation can be explained by the search for economies of scale and the avoidance of nuisance associated with certain activities, at a time when the clean technologies that exist today were not available.
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In recent years, with more and more attention to clean technologies, a lot of researches on the modification and application of biopolymer-based flocculants have been carried out.
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Consequently, millions of individuals are still suffering from unhealthy environments and others have limited access to clean technologies.
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The article also highlights the importance of a gradual introduction of carbon taxes, allowing the most vulnerable industries a transition moment to adopt clean technologies and/or redirect economic activity to less-GHG-emitting segments.
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Lanthanum (La) is a light rare-earth element that plays an essential role in manufacturing technological products, clean technologies, medical products, electron cathodes, scintillators, fluorescent lamps, and fertilizers.
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Research on biosorption of organic dyes is an important subject for the development of clean technologies for the treatment of textile wastewater.
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The use of clean technologies in the development of bioactive plant extracts has been encouraged, but it is necessary to verify the cytotoxicity and cytoprotection for food and pharmaceutical applications.
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The greatest challenge which also serve as a hindrance to the development of RE in the country is the low attention given to clean technologies from government, it recorded a weight of 31.
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Facing those challenges, clean technologies and policies seeking the potential of resource consumption and environmental pollution reduction are of significant importance.
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Food processing has been gradually adopting the use of clean technologies that aim to minimize the generation of by-products.
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This work opens new perspectives in the application of clean technologies for the extraction of valuable metals, such as indium and strontium from smartphone screens.
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Several approaches have been proposed to the development of renewable and clean technologies, such as the biological CO2 mitigation methods mediated by autotrophic microalgae.
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Governments across countries often offer dynamic subsidies to clean technologies that decrease over time.
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Ionic liquids (ILs) are evolving important materials for designing new clean technologies.
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The solution is also expected to help in supporting universal electrification with clean technologies to encourage growth and protect the environment.
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With note of the exploratory character of the present paper, we propose that the EU Horizon 2020 funding of clean technologies only partially reflected the expectations of key institutionalised EU actors due to the existence of many non-funded prioritised technologies.
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Given the high share of fossil fuels in ASEAN’s current energy mix (oil, coal, and natural gas comprise almost 80%), the clean use of fossil fuels through the deployment of clean technologies is indispensable for decarbonizing ASEAN’s emissions.
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The advancement of clean technologies for reclamation of environment and sustainable development of society is very vital nowadays.
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The goal is to show how the actual research has been transforming subtractive processes from a contributor of wastes to clean technologies.
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Counter-arguments on these issues are provided and evidence of the ability and necessity to use clean technologies is provided.
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From a policy point of view, the paper’s results call for strong policy efforts to decisively shift innovation towards clean technologies.
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The results showed indicated that the greatest problem in the high levels of GWF by artisanal gold mining activities is related to the dumping of total suspended solids and to a lesser extent the dumping of mercury, however the volume of water necessary to assimilate the pollutant load of mercury still high, so the implementation of clean technologies and the non-use of Hg is recommended.
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We also discuss barriers to the diffusion of clean technologies.
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Key policy insights Pricing policies and targeted investments that bring clean technologies below the threshold of cost-parity with fossil fuel technologies can trigger reinforcing feedbacks that cascade up scales to propel disproportionately rapid decarbonization.
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Water pollution control and the development of clean technologies for water, air and soil treatments comprise one of the most important challenges for modern society.
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The article is devoted to the actual development of energy-efficient methods to improve the energy efficiency of buildings using alternative types of renewable energy sources and new efficient clean technologies.
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Thus, the immobilized halal lipase can be foreseen as a green substitute to chemical catalyst for WCO conversion which meets the worldwide demand for clean technologies.
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Energy remains the key element in clean technologies.
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This article is part of a larger Université de Montréal study conducted with the support of Mitacs and Earth Alive Clean Technologies.
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This article is part of a larger study conducted in India by the authors at theUniversité de Montréal with the support of Mitacs and Earth Alive Clean Technologies.
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Within the framework of eight sections, reports were presented on a wide range of issues in the following areas: Energy Saving and Energy Efficiency, Environmentally-Friendly Energy Conversion and Supply, Environmental Protection Systems, Clean Technologies, Clean water, Sustainable Use of Natural Resources, Sustainable cold chains, Food Biotechnology for Human Health.
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In order to have complete and efficient structure of sustainable manufacture it must produce green products by using clean technologies.
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After years of rising CO2 emissions from road transport and the lack of investment in clean technologies, in the early 2020s an unprecedented growth in sales of zero and low emission cars was observed in the EU.
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Finally, firms with more imported emissions tend to have higher reputational risks and larger future stock returns but are less incentivized to develop clean technologies.
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The present review considers scandium extraction from three different sources - primary, secondary and opportunities – focusing on clean technologies and eco-friendly processing to achieve goals 7, 8, 9, and 12 of the 17 sustainable development goals of the United Nations.
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In response to growing environmental concerns, particularly climate change, governments have encouraged innovation and adoption of clean technologies through various policy measures.
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Doping processes for optical materials are one of the driving forces for developing efficient and clean technologies for decontamination of aquatic effluents through lowering their band gap energy to become effective in sunlight.
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Proton-exchange membrane fuel cells (PEMFCs) are considered to be one of the most promising clean technologies to mitigate climate change, air pollution, and energy crisis.
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All-electric ships (AES) are regarded as a promising solution for decreasing greenhouse gas emissions since they are able to utilize clean technologies like fuel cells instead of fossil fuel.
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According to many researchers and environmentalists, clean technologies have been considered an effective method to deal with environmental pollution.
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On the other hand, some opportunities can also be found, like Clean Development Mechanism and policies and regulations that favour the adoption and diffusion of clean technologies.
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Continuous growth in energy demand and plastic waste production are two global emerging issues that require development of clean technologies for energy recovery and solid waste disposal.
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We investigate the parameters that affect the magnitude of this gap and assess the effect of the gap on the adoption of clean technologies overtime.
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This was carried out by comparing cost benefit analysis and Return on Investment (ROI) for the old and clean technologies.
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Microbial fuel cells (MFCs) that simultaneously remove organic contaminants and recovering metals provide a potential route for industry to adopt clean technologies.
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Creating new business models is crucial for the implementation of clean technologies for industrial decarbonization.
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Further implementing low carbon & clean technologies have been considered to reduce the embodied and operational carbon.
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The exponential growth of industrial waste is a problem that has forced the development of clean technologies for their appropriate management.
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The study reveals that the implementation of clean technologies yields significant reduction in the system’s operational cost.
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Creating new business models is crucial for the implementation of clean technologies for industrial decarbonization.
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To maximize the return on cleaner burning technology, the government of Pakistan should consider encouraging the adoption of LPG, piped natural gas, and electric stoves as means to reduce IAP and adopt clean technologies.
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From 2004 to 2008, a bubble formed in clean technologies, such as solar, biofuels, batteries, and other renewable energy sources.
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Advanced oxidation processes (AOPs) are recognized as clean technologies for the treatment of water containing recalcitrant and bio-refractory pollutants such as pesticides.
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The formulation of these mechanisms, framed in public policies, such as tax incentives, creation of laws and policies that allow to stimulate environmental investment in the adoption of clean technologies, allow to reduce and control biogas emissions from the waste sector; They are also appropriate tools to convert uncontrolled final disposal sites in Venezuela into controlled sanitary landfills, thereby reducing greenhouse gases (GHG) from this sector.
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The growing demand for economic and sustainable solutions to reduce the environmental impact caused by the consumption of natural resources, and the resulting generation of waste, is the driving force for the search of clean technologies for the manufacture of construction materials using these tailings.
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The power infrastructure is emerging through a distributed system, and the linked energy systems are shifting into a modern integrated system where renewable energies and power backup facilities, with both the goal of offering clean technologies, can have substantial exposure and acceptance by energy consumers.
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