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Frugal Investment Society of the Association of Self-Help -- Rules and practice --- Consumer cooperatives -- England

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The contradictory nature of the work of Benito Pérez Galdós, Spain's greatest modern novelist, is brought to the fore in Catherine Jagoe's innovative and rigorous study. Revising commonly held views of his feminism, she explores the relation of Galdós's novels to the "woman question" in Spain, arguing that after 1892 the muted feminist discourse of his early work largely disappears. While his later novels have been interpreted as celebrations of the emancipated new woman, Jagoe contends that they actually reinforce the conservative, bourgeois model of frugal, virtuous womanhood--the angel of the house. Using primary sources such as periodicals, medical texts, and conduct literature, Jagoe's examination of the evolution of feminism makes Ambiguous Angels valuable to anyone interested in gender, culture, and narrative in nineteenth-century Europe.

Sex role in literature. --- Women in literature. --- Fiction --- Sociology of the family. Sociology of sexuality --- anno 1800-1899 --- anno 1900-1999 --- Spain --- Women in literature --- Sex role in literature --- Romance Literatures --- Languages & Literatures --- Spanish Literature --- Woman (Christian theology) in literature --- Women in drama --- Women in poetry --- Pérez Galdós, Benito, --- Galdós, Benito Pérez, --- Péres Galdós, Benito, --- Pérez Galdós, B. --- Criticism and interpretation. --- Spanish literature. --- 1892. --- 19th century. --- angel of the house. --- benito prez galds. --- bourgeois model. --- conduct literature. --- conservative. --- culture. --- emancipated new woman. --- europe. --- evolution of feminism. --- feminism. --- frugal. --- gender. --- medical texts. --- muted feminist discourse. --- narrative. --- periodicals. --- spain. --- studying writing. --- virtuous womanhood. --- woman question. --- Gender roles --- Literature --- Images of women --- Book

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The world steel industry is strongly based on coal/coke in ironmaking, resulting in huge carbon dioxide emissions corresponding to approximately 7% of the total anthropogenic CO2 emissions. As the world is experiencing a period of imminent threat owing to climate change, the steel industry is also facing a tremendous challenge in next decades. This themed issue makes a survey on the current situation of steel production, energy consumption, and CO2 emissions, as well as cross-sections of the potential methods to decrease CO2 emissions in current processes via improved energy and materials efficiency, increasing recycling, utilizing alternative energy sources, and adopting CO2 capture and storage. The current state, problems and plans in the two biggest steel producing countries, China and India are introduced. Generally contemplating, incremental improvements in current processes play a key role in rapid mitigation of specific emissions, but finally they are insufficient when striving for carbon neutral production in the long run. Then hydrogen and electrification are the apparent solutions also to iron and steel production. The book gives a holistic overview of the current situation and challenges, and an inclusive compilation of the potential technologies and solutions for the global CO2 emissions problem.

Technology: general issues --- ironmaking --- carbon emissions --- energy consumption --- flash ironmaking process --- alternate ironmaking processes --- direct reduction --- smelting reduction --- iron ore concentrate --- natural gas --- digitalization --- digital technologies --- digital transformation --- steel industry --- digital skills --- industrial restructuring --- carbon emission --- technology upgrade --- steel --- environment --- mining --- production --- circular economy --- lean and frugal design --- ecology transition --- climate change --- pollution --- toxicology --- metals --- metallic products --- environmental impact --- carbon capture and storage --- CO2 mineralization --- steelmaking slags --- nanoparticles --- life cycle assessment (LCA) --- by-products --- industrial symbiosis --- reuse --- recycling --- CO2 mitigation --- hydrogen --- kinetics --- fossil-free steel --- hydrogen direct-reduced iron (H2DRI) --- melting of H2DRI in EAF (Electric Arc Furnace) --- hydrogen production by water electrolysis --- hydrogen storage --- grid balancing --- renewable electricity --- climate warming --- carbon footprint --- energy saving --- emissions mitigation --- electricity generation --- hydrogen in steelmaking --- steel vision --- mini blast furnace --- charcoal --- mathematical model --- gas injection --- kinetic models --- self-reducing burden --- iron ore --- coking coal --- DRI --- scrap --- blue dust --- decarbonization --- n/a

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The world steel industry is strongly based on coal/coke in ironmaking, resulting in huge carbon dioxide emissions corresponding to approximately 7% of the total anthropogenic CO2 emissions. As the world is experiencing a period of imminent threat owing to climate change, the steel industry is also facing a tremendous challenge in next decades. This themed issue makes a survey on the current situation of steel production, energy consumption, and CO2 emissions, as well as cross-sections of the potential methods to decrease CO2 emissions in current processes via improved energy and materials efficiency, increasing recycling, utilizing alternative energy sources, and adopting CO2 capture and storage. The current state, problems and plans in the two biggest steel producing countries, China and India are introduced. Generally contemplating, incremental improvements in current processes play a key role in rapid mitigation of specific emissions, but finally they are insufficient when striving for carbon neutral production in the long run. Then hydrogen and electrification are the apparent solutions also to iron and steel production. The book gives a holistic overview of the current situation and challenges, and an inclusive compilation of the potential technologies and solutions for the global CO2 emissions problem.

Technology: general issues --- ironmaking --- carbon emissions --- energy consumption --- flash ironmaking process --- alternate ironmaking processes --- direct reduction --- smelting reduction --- iron ore concentrate --- natural gas --- digitalization --- digital technologies --- digital transformation --- steel industry --- digital skills --- industrial restructuring --- carbon emission --- technology upgrade --- steel --- environment --- mining --- production --- circular economy --- lean and frugal design --- ecology transition --- climate change --- pollution --- toxicology --- metals --- metallic products --- environmental impact --- carbon capture and storage --- CO2 mineralization --- steelmaking slags --- nanoparticles --- life cycle assessment (LCA) --- by-products --- industrial symbiosis --- reuse --- recycling --- CO2 mitigation --- hydrogen --- kinetics --- fossil-free steel --- hydrogen direct-reduced iron (H2DRI) --- melting of H2DRI in EAF (Electric Arc Furnace) --- hydrogen production by water electrolysis --- hydrogen storage --- grid balancing --- renewable electricity --- climate warming --- carbon footprint --- energy saving --- emissions mitigation --- electricity generation --- hydrogen in steelmaking --- steel vision --- mini blast furnace --- charcoal --- mathematical model --- gas injection --- kinetic models --- self-reducing burden --- iron ore --- coking coal --- DRI --- scrap --- blue dust --- decarbonization --- ironmaking --- carbon emissions --- energy consumption --- flash ironmaking process --- alternate ironmaking processes --- direct reduction --- smelting reduction --- iron ore concentrate --- natural gas --- digitalization --- digital technologies --- digital transformation --- steel industry --- digital skills --- industrial restructuring --- carbon emission --- technology upgrade --- steel --- environment --- mining --- production --- circular economy --- lean and frugal design --- ecology transition --- climate change --- pollution --- toxicology --- metals --- metallic products --- environmental impact --- carbon capture and storage --- CO2 mineralization --- steelmaking slags --- nanoparticles --- life cycle assessment (LCA) --- by-products --- industrial symbiosis --- reuse --- recycling --- CO2 mitigation --- hydrogen --- kinetics --- fossil-free steel --- hydrogen direct-reduced iron (H2DRI) --- melting of H2DRI in EAF (Electric Arc Furnace) --- hydrogen production by water electrolysis --- hydrogen storage --- grid balancing --- renewable electricity --- climate warming --- carbon footprint --- energy saving --- emissions mitigation --- electricity generation --- hydrogen in steelmaking --- steel vision --- mini blast furnace --- charcoal --- mathematical model --- gas injection --- kinetic models --- self-reducing burden --- iron ore --- coking coal --- DRI --- scrap --- blue dust --- decarbonization

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Medical centers are widely recognized as vital components of the healthcare system. However, academic medical centers are differentiated from their community counterparts by their mission, which typically focuses on clinical care, education, and research. Nonetheless, community clinics/hospitals fill a critical need and play a complementary role serving as the primary sites for health care in most communities. Furthermore, it is now increasingly recognized that in addition to physicians, physician-scientists, and other healthcare-related professionals, basic research scientists also contribute significantly to the emerging inter- and cross-disciplinary, team-oriented culture of translational science. Therefore, approaches that combine the knowledge, skills, experience, expertise, and visions of clinicians in academic medical centers and their affiliated community centers and hospitals, together with basic research scientists, are critical in shaping the emerging culture of translational research so that patients from the urban as well as suburban settings can avail the benefits of the latest developments in science and medicine. ‘Integrating Clinical and Translational Research Networks—Building Team Medicine’ is an embodiment of this ethos at the City of Hope National Medical Center in Duarte, California. It includes a series of papers authored by teams of leading clinicians, basic research scientists, and translational researchers. The authors discuss how engaging and collaborating with community-based practices, where the majority of older patients with cancer receive their care, can ensure that these patients receive the highest-quality, evidence-based care. Based on our collective experience at City of Hope, we would like to stress that the success of academic-community collaborative programs not only depends on the goodwill and vision of the participants but also on the medical administration, academic leadership, and policymakers who define the principles and rules by which cooperation within the health care industry occurs. We trust that our experience embodied in this singular compendium will serve as a ‘Rosetta Stone’ for other institutions and practitioners.

renal cell carcinoma --- team medicine --- translational research --- community practice --- clinical trials --- geriatric oncology --- older adults --- cancer clinical trials --- recruitment --- community --- team science --- bladder cancer --- urothelial carcinoma --- COVID-19 --- team-based medicine --- colorectal cancer --- precisian medicine --- academic and community oncology --- cancer center --- lung cancer --- lung cancer screening --- low-dose CT scans --- cancer prevention --- smoking cessation --- tobacco control --- national guidelines for screening and prevention --- pharmaceutical aids to smoking cessation --- non-small cell lung cancer --- driver mutations --- testing rates --- receptor tyrosine kinases --- actionable mutations --- next-generation sequencing --- fast-and-frugal trees --- personalized medicine --- minorities --- ethnicity --- race --- breast cancer --- research --- HER2-directed therapy --- community oncology --- academic cancer center --- precision medicine --- cancer genetics --- cancer genomics --- small cell lung cancer --- immunotherapy --- epithelial ovarian cancer --- frontline treatment --- surgical debulking --- adjuvant chemotherapy --- maintenance therapy --- PARP inhibitor --- genetics counseling --- clinical research --- n/a --- oropharyngeal cancer --- concurrent chemoradiation therapy --- human papillomavirus --- feeding tube dependency --- value-based care --- value-based cancer care --- oncology pathways --- Early Recovery After Surgery (ERAS) --- team-based care --- oncology medical home --- integrated cancer care --- supportive care pathways --- surgical pathways --- cancer care plans