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    <title>DSpace Community: School of General Education Skill Education</title>
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    <description>School of General Education Skill Education</description>
    <pubDate>Fri, 10 Jul 2026 05:30:42 GMT</pubDate>
    <dc:date>2026-07-10T05:30:42Z</dc:date>
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      <title>References_Manisha Sheoran_Thesis</title>
      <link>http://localhost:8080/xmlui/handle/123456789/856</link>
      <description>Title: References_Manisha Sheoran_Thesis
Authors: Sheoran, Manisha; Kumar, Pancham; Sharma, Susheela
Abstract: The increasing waste produced by the photovoltaic industry is of major concern as the &#xD;
field of renewable energy grows. With solar energy resources having a prominent role,&#xD;
over 500 GW of installed solar capacity exists worldwide and is anticipated to increase &#xD;
to 5000 GW by 2050. Given the predicted life lifetime of 25 years, this extraordinary &#xD;
development is estimated to produce enormous solar waste. While current solar &#xD;
research trends focus on increasing efficiency, the disposal of broken-down solar power &#xD;
panels is given significance. Recycling is an alternative, but only a small number of &#xD;
businesses can manage it effectively. &#xD;
The technologies used in the field to look after this issue with the maintenance of &#xD;
environmental preservation, resource availability, and resource recycling are covered &#xD;
in this research. If solar waste is not adequately recycled, it will be there in 60 million &#xD;
tons by 2050. The view offers a thorough analysis of the different technical elements &#xD;
of waste management, environmental protection, and recycling and recovery of solar &#xD;
panel waste. The economics of recycling solar energy includes its effects upon health, &#xD;
environment. Further the policies are examined to insist that toxic-free technologies&#xD;
may be developed in the future
Description: Part of Thesis</description>
      <pubDate>Sun, 01 Jan 2023 00:00:00 GMT</pubDate>
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      <dc:date>2023-01-01T00:00:00Z</dc:date>
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      <title>Content-Manisha Sheoran_Thesis</title>
      <link>http://localhost:8080/xmlui/handle/123456789/855</link>
      <description>Title: Content-Manisha Sheoran_Thesis
Authors: Sheoran, Manisha; Kumar, Pancham; Sharma, Susheela
Abstract: The increasing waste produced by the photovoltaic industry is of major concern as the &#xD;
field of renewable energy grows. With solar energy resources having a prominent role,&#xD;
over 500 GW of installed solar capacity exists worldwide and is anticipated to increase &#xD;
to 5000 GW by 2050. Given the predicted life lifetime of 25 years, this extraordinary &#xD;
development is estimated to produce enormous solar waste. While current solar &#xD;
research trends focus on increasing efficiency, the disposal of broken-down solar power &#xD;
panels is given significance. Recycling is an alternative, but only a small number of &#xD;
businesses can manage it effectively. &#xD;
The technologies used in the field to look after this issue with the maintenance of &#xD;
environmental preservation, resource availability, and resource recycling are covered &#xD;
in this research. If solar waste is not adequately recycled, it will be there in 60 million &#xD;
tons by 2050. The view offers a thorough analysis of the different technical elements &#xD;
of waste management, environmental protection, and recycling and recovery of solar &#xD;
panel waste. The economics of recycling solar energy includes its effects upon health, &#xD;
environment. Further the policies are examined to insist that toxic-free technologies&#xD;
may be developed in the future
Description: Part of Thesis</description>
      <pubDate>Sun, 01 Jan 2023 00:00:00 GMT</pubDate>
      <guid isPermaLink="false">http://localhost:8080/xmlui/handle/123456789/855</guid>
      <dc:date>2023-01-01T00:00:00Z</dc:date>
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      <title>Declaration_Manisha Sheoran_Thesis</title>
      <link>http://localhost:8080/xmlui/handle/123456789/854</link>
      <description>Title: Declaration_Manisha Sheoran_Thesis
Authors: Sheoran, Manisha; Kumar, Pancham; Sharma, Susheela
Abstract: The increasing waste produced by the photovoltaic industry is of major concern as the &#xD;
The field of renewable energy grows. With solar energy resources having a prominent role,&#xD;
over 500 GW of installed solar capacity exists worldwide and is anticipated to increase &#xD;
to 5000 GW by 2050. Given the predicted life lifetime of 25 years, this extraordinary &#xD;
development is estimated to produce enormous solar waste. While current solar &#xD;
research trends focus on increasing efficiency, the disposal of broken-down solar power &#xD;
panels is given significance. Recycling is an alternative, but only a small number of &#xD;
businesses can manage it effectively. &#xD;
The technologies used in the field to look after this issue with the maintenance of &#xD;
environmental preservation, resource availability, and resource recycling are covered &#xD;
in this research. If solar waste is not adequately recycled, it will be there in 60 million &#xD;
tons by 2050. The view offers a thorough analysis of the different technical elements &#xD;
of waste management, environmental protection, and recycling and recovery of solar &#xD;
panel waste. The economics of recycling solar energy includes its effects upon health, &#xD;
environment. Further, the policies are examined to insist that toxic-free technologies&#xD;
may be developed in the future.</description>
      <pubDate>Sun, 01 Jan 2023 00:00:00 GMT</pubDate>
      <guid isPermaLink="false">http://localhost:8080/xmlui/handle/123456789/854</guid>
      <dc:date>2023-01-01T00:00:00Z</dc:date>
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      <title>Chapters_ Manisha Sheoran _Thesis</title>
      <link>http://localhost:8080/xmlui/handle/123456789/853</link>
      <description>Title: Chapters_ Manisha Sheoran _Thesis
Authors: Sheoran, Manisha; Kumar, Pancham; Sharma, Susheela
Abstract: The increasing waste produced by the photovoltaic industry is of major concern as the &#xD;
field of renewable energy grows. With solar energy resources having a prominent role,&#xD;
over 500 GW of installed solar capacity exists worldwide and is anticipated to increase &#xD;
to 5000 GW by 2050. Given the predicted life lifetime of 25 years, this extraordinary &#xD;
development is estimated to produce enormous solar waste. While current solar &#xD;
research trends focus on increasing efficiency, the disposal of broken-down solar power &#xD;
panels is given significance. Recycling is an alternative, but only a small number of &#xD;
businesses can manage it effectively. &#xD;
The technologies used in the field to look after this issue with the maintenance of &#xD;
environmental preservation, resource availability, and resource recycling are covered &#xD;
in this research. If solar waste is not adequately recycled, it will be there in 60 million &#xD;
tons by 2050. The view offers a thorough analysis of the different technical elements &#xD;
of waste management, environmental protection, and recycling and recovery of solar &#xD;
panel waste. The economics of recycling solar energy includes its effects upon health, &#xD;
environment. Further the policies are examined to insist that toxic-free technologies&#xD;
may be developed in the future.
Description: Part of Thesis</description>
      <pubDate>Sun, 01 Jan 2023 00:00:00 GMT</pubDate>
      <guid isPermaLink="false">http://localhost:8080/xmlui/handle/123456789/853</guid>
      <dc:date>2023-01-01T00:00:00Z</dc:date>
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