The future of the industrial system

Eco-industrial parks represent the future direction of the development of industrial system. In order to reduce their impacts on the environment, and increase the recycling degree of byproducts , this paper has made quantitative assessment on the stability of byproducts recycling web and the rate of byproducts recycling by two indices. Based on the existing research, the thesis has contributed to applying the indices to the Kalundborg industrial symbiosis, the example of EIPs. By calculating the two indices, results have proved the feasibility of the indices. However, efforts should be paid to achieve the accuracy and integrity of data.

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Pengendali Robot Tempat Sampah Menggunakan Smartphone Berbasis Boarduino

Jurnal Jaring SainTek ◽

10.31599/jaring-saintek.v1i2.171 ◽

2020 ◽

Vol 1 (2) ◽

pp. 52-60

Author(s):

Andri Fadjria ◽

Rakhmat Purnomo ◽

Nur Rahman

Keyword(s):

Environmental Pollution ◽

Industrial System ◽

The Future

The cafeteria of Bhayangkara University, Greater Jakarta, has a problem that is a lot ofgarbage left by visitors to the canteen. Waste consists of plastic, paper, food scraps placedat the canteen table by visitors to the canteen. The location of the trash can is far from thevisitors, and the number of trash bins totaling 4 pieces, unable to accommodate the garbagefrom visitors to the canteen can get problems in environmental pollution for the future. Sohe made a study that produced a garbage bin robot with an industrial system 4.0, which isto assist the task of human work. With the aim of reducing the trash left by visitors to thecanteen and the convenience of visitors to put garbage on the robot. Using the protoypingmethod in the system of making garbage bins with the stages of collecting design processneeds, building prototypes, evaluating & repairing, producing a robot with a smartphonecontroller based on boarduino applications so that robots can work according to the needsexpected by researchers.

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The Future of the Industrial System*

Perspectives on Industrial Ecology ◽

10.4324/9781351282086-20 ◽

2017 ◽

pp. 194-222

Author(s):

Indur M. Goklany

Keyword(s):

Industrial System ◽

The Future

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Victoria's Industrial System: the Future

Journal of Industrial Relations ◽

10.1177/002218567902100413 ◽

1979 ◽

Vol 21 (4) ◽

pp. 508-509

Keyword(s):

Industrial System ◽

The Future

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Wake-up call for a dysfunctional system: Employer perspectives on industrial relations in 2020

Journal of Industrial Relations ◽

10.1177/00221856211012823 ◽

2021 ◽

pp. 002218562110128

Author(s):

Scott Barklamb

Keyword(s):

Industrial Relations ◽

Industrial System ◽

The Future

This article addresses the key challenges of 2020 from the perspective of employers, how employers worked to respond to the pandemic and recession, and to position Australia’s industrial system for the future. It examines various key developments, positive and negative, from the perspective of employers throughout 2020, before concluding on the prospects for starting to genuinely reform Australia’s industrial relations system in 2021.

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In-patient Child Psychiatry; Modern Practice, Research and the Future. Edited by Jonathan Green and Brian Jacobs. Jessica Kingsley, London, 1998. pp. 230. £15.95 (pb).

Journal of Child Psychology and Psychiatry ◽

10.1017/s0021963099224171 ◽

1999 ◽

Vol 40 (7) ◽

pp. 1141-1142

Author(s):

Gillian C. Forrest

Keyword(s):

Child Psychiatry ◽

Practice Research ◽

The Future

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International determination of the total motion of the pole

Symposium - International Astronomical Union ◽

10.1017/s0074180900177824 ◽

1961 ◽

Vol 13 ◽

pp. 29-41

Author(s):

Wm. Markowitz

Keyword(s):

Secular Motion ◽

The Future

A symposium on the future of the International Latitude Service (I. L. S.) is to be held in Helsinki in July 1960. My report for the symposium consists of two parts. Part I, denoded (Mk I) was published [1] earlier in 1960 under the title “Latitude and Longitude, and the Secular Motion of the Pole”. Part II is the present paper, denoded (Mk II).

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Status of the Lick Proper Motion Program

International Astronomical Union Colloquium ◽

10.1017/s0252921100074339 ◽

1978 ◽

Vol 48 ◽

pp. 387-388

Author(s):

A. R. Klemola

Keyword(s):

Proper Motion ◽

The Future

Second-epoch photographs have now been obtained for nearly 850 of the 1246 fields of the proper motion program with centers at declination -20° and northwards. For the sky at 0° and northward only 130 fields remain to be taken in the next year or two. The 270 southern fields with centers at -5° to -20° remain for the future.

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Some Structural Features of Metaphase Chromosomes of Mice and Men

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060969 ◽

1967 ◽

Vol 25 ◽

pp. 190-191

Author(s):

Godfrey C. Hoskins ◽

Betty B. Hoskins

Keyword(s):

Electron Microscopy ◽

Electron Micrographs ◽

Structural Features ◽

Metaphase Chromosomes ◽

The Future ◽

Of Mice And Men ◽

Mouse Cells ◽

Human And Mouse

Metaphase chromosomes from human and mouse cells in vitro are isolated by micrurgy, fixed, and placed on grids for electron microscopy. Interpretations of electron micrographs by current methods indicate the following structural features.Chromosomal spindle fibrils about 200Å thick form fascicles about 600Å thick, wrapped by dense spiraling fibrils (DSF) less than 100Å thick as they near the kinomere. Such a fascicle joins the future daughter kinomere of each metaphase chromatid with those of adjacent non-homologous chromatids to either side. Thus, four fascicles (SF, 1-4) attach to each metaphase kinomere (K). It is thought that fascicles extend from the kinomere poleward, fray out to let chromosomal fibrils act as traction fibrils against polar fibrils, then regroup to join the adjacent kinomere.

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Freeze-fracture cytochemistry: A goal set by Russell Steere in 1957

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010014614x ◽

1993 ◽

Vol 51 ◽

pp. 60-61

Author(s):

Nicholas J Severs

Keyword(s):

Chemical Nature ◽

Biological Systems ◽

Freeze Fracture ◽

Structural Components ◽

Major Goal ◽

Membrane Biology ◽

Routine Application ◽

The Future ◽

Freeze Etching

In his pioneering demonstration of the potential of freeze-etching in biological systems, Russell Steere assessed the future promise and limitations of the technique with remarkable foresight. Item 2 in his list of inherent difficulties as they then stood stated “The chemical nature of the objects seen in the replica cannot be determined”. This defined a major goal for practitioners of freeze-fracture which, for more than a decade, seemed unattainable. It was not until the introduction of the label-fracture-etch technique in the early 1970s that the mould was broken, and not until the following decade that the full scope of modern freeze-fracture cytochemistry took shape. The culmination of these developments in the 1990s now equips the researcher with a set of effective techniques for routine application in cell and membrane biology.Freeze-fracture cytochemical techniques are all designed to provide information on the chemical nature of structural components revealed by freeze-fracture, but differ in how this is achieved, in precisely what type of information is obtained, and in which types of specimen can be studied.

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