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Total 31105 Records | 3111 Pages
2024-2030 Global Cable Carrier Industry Research & Trends Analysis Report
Cables carrier (also called drag chains,or cable chains) are guiding devices for surrounding and guiding flexible cables and hydraulic or pneumatic hoses connected to moving automated machinery. They reduce wear and stress on cables and hoses, prevent tangles, and improve operator safety.
2024-05-17
Energy & PowerUSD5200
Cables carrier (also called drag chains,or cable chains) are guiding devices for surrounding and guiding flexible cables and hydraulic or pneumatic hoses connected to moving automated machinery. They reduce wear and stress on cables and hoses, prevent tangles, and improve operator safety.
2024-05-17 Energy & PowerUSD5200
View Details 
Hydrogen Fuel Cell Recycling - Global and China Top Players Market Share and Ranking 2024
Hydrogen fuel cell recycling is a process of recovering valuable materials and components from used or end-of-life hydrogen fuel cells in order to reuse them, reduce waste, and promote sustainability. Hydrogen fuel cells are devices that generate electricity through an electrochemical reaction between hydrogen and oxygen, with water being the primary byproduct. These fuel cells are used in various applications, including vehicles, stationary power generation, and portable devices. Development of hydrogen fuel cell recycling technologies makes the process of recovering valuable materials from used hydrogen fuel cells more efficient and economically viable. These efforts contribute to the circular economy concept by reducing waste and promoting the sustainable use of resources in the hydrogen and fuel cell industry.
2024-05-17 Energy & PowerUSD3060
Hydrogen fuel cell recycling is a process of recovering valuable materials and components from used or end-of-life hydrogen fuel cells in order to reuse them, reduce waste, and promote sustainability. Hydrogen fuel cells are devices that generate electricity through an electrochemical reaction between hydrogen and oxygen, with water being the primary byproduct. These fuel cells are used in various applications, including vehicles, stationary power generation, and portable devices. Development of hydrogen fuel cell recycling technologies makes the process of recovering valuable materials from used hydrogen fuel cells more efficient and economically viable. These efforts contribute to the circular economy concept by reducing waste and promoting the sustainable use of resources in the hydrogen and fuel cell industry.
2024-05-17 Energy & PowerUSD3060
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Low Light Photovoltaic Cells - Global and China Top Players Market Share and Ranking 2024
According to YH Research, the global market for Low Light Photovoltaic Cells should grow from US$ 82.3 million in 2023 to US$ 146 million by 2030, with a CAGR of 8.9% for the period of 2024-2030.
2024-05-17 Energy & PowerUSD3060
According to YH Research, the global market for Low Light Photovoltaic Cells should grow from US$ 82.3 million in 2023 to US$ 146 million by 2030, with a CAGR of 8.9% for the period of 2024-2030.
2024-05-17 Energy & PowerUSD3060
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Cable Carrier - Global and China Top Players Market Share and Ranking 2024
Cables carrier (also called drag chains,or cable chains) are guiding devices for surrounding and guiding flexible cables and hydraulic or pneumatic hoses connected to moving automated machinery. They reduce wear and stress on cables and hoses, prevent tangles, and improve operator safety.
2024-05-17 Energy & PowerUSD3060
Cables carrier (also called drag chains,or cable chains) are guiding devices for surrounding and guiding flexible cables and hydraulic or pneumatic hoses connected to moving automated machinery. They reduce wear and stress on cables and hoses, prevent tangles, and improve operator safety.
2024-05-17 Energy & PowerUSD3060
View Details
Small Wind Power - Global and China Top Players Market Share and Ranking 2024
A small wind turbine is a wind turbine used for microgeneration, as opposed to large commercial wind turbines, such as those found in wind farms, with greater individual power output.
2024-05-17 Energy & PowerUSD3060
A small wind turbine is a wind turbine used for microgeneration, as opposed to large commercial wind turbines, such as those found in wind farms, with greater individual power output.
2024-05-17 Energy & PowerUSD3060
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Direct Lithium Extraction Technology Services - Global and China Top Players Market Share and Ranking 2024
Lithium is a highly reactive alkali metal that offers excellent heat and electrical conductivity, which makes it ideal for several uses such as EV and energy storage, as mentioned above. However, because of its high reactivity, pure elemental lithium is not found in nature but is instead present as a constituent of salts or other compounds. Direct Lithium Extraction (DLE) is one of the latest trends to extract lithium. This technique consists of several chemical processes that allow for fast isolated lithium production into saleable forms of lithium. This can be done via three main methods:1.Adsorption: using sorbents to physically adhere to the lithium for selective removal. After the sorbent is loaded with the lithium chloride, it’s washed with a diluted lithium chloride stream to remove unwanted ions, and then washed a second time to unload the lithium chloride. The latest sorbent being tested is a lithium aluminum layered double hydroxide chloride sorbent, or LDH. As described in a recent study published by Environmental Science & Technology, this method doesn't require an acid wash or other chemicals, which ultimately makes it more friendly.2.Ion Exchange: These systems separate ionic contaminants from solution through a physicochemical process where undesirable ions are replaced by other ions of the same electrical charge. Lithium recovery by ion exchange can change with a simple adjustment in pH, temperature, or stream composition (and the same goes for other lithium extraction methods), but researchers also believe this method can recover roughly 90% of the lithium present.3.Solvent extraction: this process involves capturing lithium either chemically or physically and transforming it into LiCl or Li* from brine.
2024-05-17 Energy & PowerUSD3060
Lithium is a highly reactive alkali metal that offers excellent heat and electrical conductivity, which makes it ideal for several uses such as EV and energy storage, as mentioned above. However, because of its high reactivity, pure elemental lithium is not found in nature but is instead present as a constituent of salts or other compounds. Direct Lithium Extraction (DLE) is one of the latest trends to extract lithium. This technique consists of several chemical processes that allow for fast isolated lithium production into saleable forms of lithium. This can be done via three main methods:1.Adsorption: using sorbents to physically adhere to the lithium for selective removal. After the sorbent is loaded with the lithium chloride, it’s washed with a diluted lithium chloride stream to remove unwanted ions, and then washed a second time to unload the lithium chloride. The latest sorbent being tested is a lithium aluminum layered double hydroxide chloride sorbent, or LDH. As described in a recent study published by Environmental Science & Technology, this method doesn't require an acid wash or other chemicals, which ultimately makes it more friendly.2.Ion Exchange: These systems separate ionic contaminants from solution through a physicochemical process where undesirable ions are replaced by other ions of the same electrical charge. Lithium recovery by ion exchange can change with a simple adjustment in pH, temperature, or stream composition (and the same goes for other lithium extraction methods), but researchers also believe this method can recover roughly 90% of the lithium present.3.Solvent extraction: this process involves capturing lithium either chemically or physically and transforming it into LiCl or Li* from brine.
2024-05-17 Energy & PowerUSD3060
View Details
2024-2030 Global Small Wind Power Industry Research & Trends Analysis Report
A small wind turbine is a wind turbine used for microgeneration, as opposed to large commercial wind turbines, such as those found in wind farms, with greater individual power output.
2024-05-17 Energy & PowerUSD5200
A small wind turbine is a wind turbine used for microgeneration, as opposed to large commercial wind turbines, such as those found in wind farms, with greater individual power output.
2024-05-17 Energy & PowerUSD5200
View Details
2024-2030 Global Hydrogen Fuel Cell Recycling Industry Research & Trends Analysis Report
Hydrogen fuel cell recycling is a process of recovering valuable materials and components from used or end-of-life hydrogen fuel cells in order to reuse them, reduce waste, and promote sustainability. Hydrogen fuel cells are devices that generate electricity through an electrochemical reaction between hydrogen and oxygen, with water being the primary byproduct. These fuel cells are used in various applications, including vehicles, stationary power generation, and portable devices. Development of hydrogen fuel cell recycling technologies makes the process of recovering valuable materials from used hydrogen fuel cells more efficient and economically viable. These efforts contribute to the circular economy concept by reducing waste and promoting the sustainable use of resources in the hydrogen and fuel cell industry.
2024-05-17 Energy & PowerUSD5200
Hydrogen fuel cell recycling is a process of recovering valuable materials and components from used or end-of-life hydrogen fuel cells in order to reuse them, reduce waste, and promote sustainability. Hydrogen fuel cells are devices that generate electricity through an electrochemical reaction between hydrogen and oxygen, with water being the primary byproduct. These fuel cells are used in various applications, including vehicles, stationary power generation, and portable devices. Development of hydrogen fuel cell recycling technologies makes the process of recovering valuable materials from used hydrogen fuel cells more efficient and economically viable. These efforts contribute to the circular economy concept by reducing waste and promoting the sustainable use of resources in the hydrogen and fuel cell industry.
2024-05-17 Energy & PowerUSD5200
View Details
2024-2030 Global Low Light Photovoltaic Cells Industry Research & Trends Analysis Report
According to YH Research, the global market for Low Light Photovoltaic Cells should grow from US$ 82.3 million in 2023 to US$ 146 million by 2030, with a CAGR of 8.9% for the period of 2024-2030.
2024-05-17 Energy & PowerUSD5200
According to YH Research, the global market for Low Light Photovoltaic Cells should grow from US$ 82.3 million in 2023 to US$ 146 million by 2030, with a CAGR of 8.9% for the period of 2024-2030.
2024-05-17 Energy & PowerUSD5200
View Details
2024-2030 Global Direct Lithium Extraction Technology Services Industry Research & Trends Analysis Report
Lithium is a highly reactive alkali metal that offers excellent heat and electrical conductivity, which makes it ideal for several uses such as EV and energy storage, as mentioned above. However, because of its high reactivity, pure elemental lithium is not found in nature but is instead present as a constituent of salts or other compounds. Direct Lithium Extraction (DLE) is one of the latest trends to extract lithium. This technique consists of several chemical processes that allow for fast isolated lithium production into saleable forms of lithium. This can be done via three main methods:1.Adsorption: using sorbents to physically adhere to the lithium for selective removal. After the sorbent is loaded with the lithium chloride, it’s washed with a diluted lithium chloride stream to remove unwanted ions, and then washed a second time to unload the lithium chloride. The latest sorbent being tested is a lithium aluminum layered double hydroxide chloride sorbent, or LDH. As described in a recent study published by Environmental Science & Technology, this method doesn't require an acid wash or other chemicals, which ultimately makes it more friendly.2.Ion Exchange: These systems separate ionic contaminants from solution through a physicochemical process where undesirable ions are replaced by other ions of the same electrical charge. Lithium recovery by ion exchange can change with a simple adjustment in pH, temperature, or stream composition (and the same goes for other lithium extraction methods), but researchers also believe this method can recover roughly 90% of the lithium present.3.Solvent extraction: this process involves capturing lithium either chemically or physically and transforming it into LiCl or Li* from brine.
2024-05-17 Energy & PowerUSD5200
Lithium is a highly reactive alkali metal that offers excellent heat and electrical conductivity, which makes it ideal for several uses such as EV and energy storage, as mentioned above. However, because of its high reactivity, pure elemental lithium is not found in nature but is instead present as a constituent of salts or other compounds. Direct Lithium Extraction (DLE) is one of the latest trends to extract lithium. This technique consists of several chemical processes that allow for fast isolated lithium production into saleable forms of lithium. This can be done via three main methods:1.Adsorption: using sorbents to physically adhere to the lithium for selective removal. After the sorbent is loaded with the lithium chloride, it’s washed with a diluted lithium chloride stream to remove unwanted ions, and then washed a second time to unload the lithium chloride. The latest sorbent being tested is a lithium aluminum layered double hydroxide chloride sorbent, or LDH. As described in a recent study published by Environmental Science & Technology, this method doesn't require an acid wash or other chemicals, which ultimately makes it more friendly.2.Ion Exchange: These systems separate ionic contaminants from solution through a physicochemical process where undesirable ions are replaced by other ions of the same electrical charge. Lithium recovery by ion exchange can change with a simple adjustment in pH, temperature, or stream composition (and the same goes for other lithium extraction methods), but researchers also believe this method can recover roughly 90% of the lithium present.3.Solvent extraction: this process involves capturing lithium either chemically or physically and transforming it into LiCl or Li* from brine.
2024-05-17 Energy & PowerUSD5200
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