This electrospinning system consists of a main structural body, a power supply that provides a DC voltage source, a syringe pump and a flat collector. The general parameters in the production process are the resolution of the spray rate μl/minute and the power supply provides electricity in kiloVolts. Power Supply Fiber Production High Tech Injection Pump Nanometer Scale Manufacturing Process Synthesize Voltage Source.

The electrospinning system was implemented with a main housing in the form of an acrylic chamber, an electric power supply to generate a constant high-voltage direct current, an adjustable syringe pump and a flat collector. The main parameter such as the solution spray rate in µℓ / minute and the constant injected voltage in kilovolts for the production of nanofibers were provided by the proposed electrospinning device. The International Conference on Energy, Environment, Epidemiology and Information System (ICENIS) is an annual conference organized by the School of Postgraduate Studies Diponegoro University, one of the leading universities in Indonesia.

This conference has been successfully conducted since 2016 under the name of International Conference on Energy, Environment and Information System and thus has become an annual event. The name of the conference will thus be the International Conference on Energy, Environment, Epidemiology and Information System (ICENIS). After successfully in the previous event with more than 300 selected papers have been published in conference proceedings indexed by Scopus, we invite to 4. 2019 ICENIS in August at Santika Hotel Premier Semarang with the theme "Strengthening Planning & Implementation of Energy, Environment, Epidemiology & Information System in response to IR4".

This conference will cover all research and development in energy, environment, epidemiology and information systems.

WESTERN CAROLINA UNIVERSITY

THE JOINT GRADUATE SCHOOL OF ENERGY AND ENVIRONMENT, KING MONGKUT'S UNIVERSITY OF TECHNOLOGY THONBURI

HEAD OF INDONESIAN ASSOCIATION OF COMPUTING AND INFORMATICS HIGHER EDUCATION - UNIVERSITY OF INDONESIA

CENTER OF RESEARCH EXCELLENCE IN NANO TECHNOLOGY (CENT) CHEMICAL ENGINEERING DEPARTMENT KING FAHD UNIVERSITY OF PETROLEUM & MINERALS

DIPONEGORO UNIVERSITY

COMMITTE

Steering Committe

SUBMIT YOUR CONTRIBUTION WORK

All accepted papers will be published in Scopus Indexed Proceeding E3S Web of Conferences and selected papers will be published in HAYATI Journal of Biosciences (Scopus Q3)

EVENT SCHEDULE

REGISTRATION FEE

CONTACT

Phone

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Environmental Conservation

Geomorfologi dan Kawasan Rawan Longsor di Kecamatan Cisolok Kabupaten Sukabumi 01005 Mochamad Seaandy Alfarabi, Supriatna, Masita Dwi Mandini Manessa, Andry Rustanto dan Yoanna Ristya Diterbitkan secara online: 28 Oktober 2019. Model Dinamika Spasial untuk Daya Dukung Lahan 006 R Prediksi Kota Tanger 006 R Lamonda, Supriatna, Revi Hernina, Masita Dwi Mandini Manessa dan Yoanna Ristya. Pola perubahan bentang alam pesisir akibat bencana alam di Kabupaten Pelabuhanratu, Jawa Barat 01007 Mu dah Tartila, Supriatna, Masita Dwi Mandini Manessa dan Yoanna Ristya.

Energy Conservation and E ciency

Energy Conversion Technology

Renewable Energy

Occupational Epidemiology

Nutritional Epidemiology

Behavioral Epidemiology

Business Intelligence

Contaminated Rivers

Trace metals and metalloids are a common and persistent form of river pollution and come from a wide variety of sources, including mining and milling activities, industrial activities, urban runo, agrochemicals and air pollution, among a host of others. . Documentation of trace metal sources and dispersal pathways in river ecosystems is essential to mitigate their potentially detrimental effects on human and ecosystem health and is often required from a legal (environmental forensics) perspective to assess liability for the costs of restoration. Unfortunately, documenting the sources and source contributions of trace metals in rivers has proven difficult, time consuming and costly.

Here, a four-component interdisciplinary framework is proposed for the efficient identification of sources and source contributions of trace metals in alluvial sediments where multiple natural and/or anthropogenic sources exist. Components include (1) analysis of fluvial alluvial stratigraphic architecture and geomorphic history, (2) temporal correlation of geochemically characterized alluvial deposits with potential anthropogenic sources of trace metals, (3) analysis of spatial variation of selected geochemical parameters, and (4) use of geochemical and/or isotopic tracers for the quantitative assessment of trace metal contributions from identified natural and anthropogenic sources. The four components are not exhaustive; the framework may require modification according to a multiple lines of evidence approach, whereby additional methods and data are added to the investigation until it is confident that all sources of trace metals and their contributions have been effectively identified.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. E ects of heavy metal pollution in the Pilcomayo River system, Bolivia, on resident human populations. Antimony in the Contaminated Site of El Triunfo, Baja California Sur, Mexico E3S Web of Conferences.

Alternatives to groundwater

The Water as Leverage project aims to map urban coastal areas around the world that face a range of water-related issues. In the short term, it is recommended to produce industrial water from (contaminated) surface water as a means of offering an alternative to groundwater extraction. In the long term, it is recommended to install additional wastewater and drinking water treatment services to facilitate better hygiene and a higher quality of life.

Survey of marine mammals in eastern Indonesia 2016: Implications for marine mammal research and conservation.

E3S Web of Conferences

6/20/2020 GreenMetric UI Implementation at Diponegoro University for Environmental Sustainability Efforts | E3S Web of Conferences.

Implementation of UI

GreenMetric at Diponegoro University in order to

Environmental Sustainability E orts

The green campus is a concept that integrates environmental science into college policies, management and activities. The green campus is also the implementation of the integration of environmental science in all aspects of management practices and sustainable development. Therefore, standards are needed to guide and encourage management in developing a green campus program, one of which is UI GreenMetric.

The purpose of this study is to determine how the UI GreenMetric program is implemented at Diponegoro University and provide recommendations in the category or indicator that was not met. Optimizing the implementation of the GreenMetric user interface can be used as a further reference in the development of the green campus concept in Indonesia. This study uses data in the form of a literature study on the standards and guidelines used by UI GreenMetric, which are followed in accordance with the strategy to increase efficiency in the implementation of a green campus.

The results showed the value achieved by Diponegoro University in the UI GreenMetric World University Rankings standards.

Biore neries for Sustainable Food-Fuel-Fibre Production

Towards a Circular Economy

They not only provide food, but are also increasingly proving to be a reliable local source of energy and materials. Biofuels from palm oil and sugar cane are prominent examples where the palm and sugar mills serve as biore- neries – supplying food, fuels and materials. Nevertheless, there are also associated environmental impacts to consider, in addition to economic considerations.

In particular, eco-e ciency, a tool that combines both environmental and economic aspects, is very useful for analyzing biorefinery con gurations and looking at the trade-off between the environmental and economic aspects. The increase in value-added products from the bioreineries can lead to increased economic benefits, but also increased environmental emissions. Indicators such as eco-e ciency show the relative advantages of the improved bioremediation system compared to conventional food or biofuel production systems.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. guineensis Jacq.) fresh fruit bunches production in Indonesia. Potential biodiesel production from palm oil, coconut oil and soybean oil for Thailand MATEC Web of Conferences. By using this website, you agree that EDP Sciences may store web audience measurement cookies and, on some pages, cookies from social networks.