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--- report [2023/06/27 19:04] – [7.4 Design] team1
+++ report [2023/06/28 02:31] (current) – [6.2 Engineering Ethics] team1
@@ Line 1401: / Line 1401: @@
 Our Common Future was published on October 1987 by the United Nations. The report is also known as the Brundtland Report, referring to former Norwegian prime minister Gro Harlem Brundtland. Brundtland was the chair of the World Commission on Environment and Development (WCED). “Our Common Future placed environmental issues firmly on the political agenda; it aimed to discuss the environment and development as one single issue [(Brundtland1987)].” The report famously defined sustainable development as “Development that meets the needs of the present without compromising the ability of future generations to meet their own needs [(ALBERTA2018)].”
-Sustainability is more than just environmentalism; “In addition to natural resources, we also need social and economic resources. Embedded in most definitions of sustainability we also find concerns for social equity and economic development [(ALBERTA2018)].” The concept of sustainability is a holistic approach that covers three pillars; the economic, environmental and social. This approach is shown in Figure {{ref>flabel15}}. The three pillars, sometimes better known as people, planet and people, will each be addressed in this chapter. We don’t want sustainability do be yet another part of the job, it should be a guiding influence for the whole project.
+Sustainability is more than just environmentalism; “In addition to natural resources, we also need social and economic resources. Embedded in most definitions of sustainability we also find concerns for social equity and economic development [(ALBERTA2018)].” The concept of sustainability is a holistic approach that covers three pillars; the economic, environmental and social. The three pillars, sometimes better known as people, planet and people, will each be addressed in this chapter. We don’t want sustainability do be yet another part of the job, it should be a guiding influence for the whole project.
-{{ : three_pillars_of_sustainability.webp?nolink&400 }}
-<WRAP centeralign>
-<figure flabel15>
-<caption>Three pillars of sustainability</caption>
-</figure>
-</WRAP>
 ** Eco-efficiency **
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 ==== - Engineering Ethics ====
-Ethics and engineering are unseparated of each other. Engineers are expected to exhibit the highest standards of honesty and integrity. This field of study has a big and direct impact on the quality of life for all people. Engineers are expected to be honesty, impartiality, fairness and equity, and must be dedicated to the public safety, welfare and safety. Engineering Ethics - Introduction [(tutorialspoint)]  The deontology rules for engineering can vary from one country to another and some countries don’t have a written code of ethics. Amplea is focused the most on the Asian market but is made to use over the whole world. According to [national society of professional engineers, 2019], engineers should follow fundamental cannons, practice rules, and personal obligations. These will now be further explained.
+Ethics and engineering are unseparated of each other. Engineers are expected to exhibit the highest standards of honesty and integrity. This field of study has a big and direct impact on the quality of life for all people. Engineers are expected to be honesty, impartiality, fairness and equity, and must be dedicated to the public safety, welfare and safety. The deontology rules for engineering can vary from one country to another and some countries don’t have a written code of ethics. Amplea is focused the most on the Asian market but is made to use over the whole world. According to [national society of professional engineers, 2019], engineers should follow fundamental cannons, practice rules, and personal obligations. These will now be further explained.
 **Fundamental cannons:**
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 <caption>Provisional list of aluminium elements </caption>
 <WRAP box center 800px>
-^ Identifier ^ Name ^ Measurements (cm*cm*cm) ^ Supplement ^ Quantity ^ Material ^ Density (kg/m3) ^ Price (€/kg) (Aprox) ^ Price (€) ^
+^ Identifier ^ Name ^ Measurements (cm x cm x cm) ^ Supplement ^ Quantity ^ Material ^ Density (kg/m3) ^ Price (€/kg) (Aprox) ^ Price (€) ^
-| RS | Rails start | 60*4*2 | 8*7.5*1 (a piece by unity)| 2 | Aluminium | 2700 | 1.42 | 4.1 |
+| RS | Rails start | 60 x 4 x 2 | 8 x 7.5 x 1 (a piece by unity)| 2 | Aluminium | 2700 | 1.42 | 4.1 |
-| RP | Rails part | 60*4*2 |  | 6 | Aluminium | 2700 | 1.42 | 11.0 |
+| RP | Rails part | 60 x 4 x 2 |  | 6 | Aluminium | 2700 | 1.42 | 11.0 |
-| L | Legs | 66*4*2.5 |  | 2 | Aluminium  | 2700 | 1.42 | 5.1 |
+| L | Legs | 66 x 4 x 2.5 |  | 2 | Aluminium  | 2700 | 1.42 | 5.1 |
-| EL | Extra legs | 60*2*2 | 42*1.5*2 (only one piece)| 2 | Aluminium  | 2700 | 1.42 | 2.3 |
+| EL | Extra legs | 60 x 2 x 2 | 42 x 1.5 x 2 (only one piece)| 2 | Aluminium  | 2700 | 1.42 | 2.3 |
 </WRAP>
 </table>
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 <caption>Provisional list of woods elements for version A</caption>
 <WRAP box center 800px>
-^ Identifier ^ Name ^ Measurements (cm*cm) ^ Thickness (cm) ^ Quantity ^ Material ^ Price (€/m²) (Aprox) ^ Price (€) ^
+^ Identifier ^ Name ^ Measurements (cm x cm) ^ Thickness (cm) ^ Quantity ^ Material ^ Price (€/m²) (Aprox) ^ Price (€) ^
-| WS | Wardrobe sides | 70*200 | 2 | 2 | Composite HPL | 203.95 | 571.1 |
+| WS | Wardrobe sides | 70 x 200 | 2 | 2 | Composite HPL | 203.95 | 571.1 |
-| WTB | Wardrobe top and bottom| 54*72 | 2 | 2 | Composite HPL | 203.95 | 158.6 |
+| WTB | Wardrobe top and bottom| 54 x 72 | 2 | 2 | Composite HPL | 203.95 | 158.6 |
-| WDB | Wardrobe door and back | 64*200 | 2 | 2 | Composite HPL | 203.95 | 522.1 |
+| WDB | Wardrobe door and back | 64 x 200 | 2 | 2 | Composite HPL | 203.95 | 522.1 |
-| S | Shelves | 50*68 | 2 | 4 | Composite HPL | 203.95 | 214.1 |
+| S | Shelves | 50 x 68 | 2 | 4 | Composite HPL | 203.95 | 214.1 |
-| D | Desk | 150*70 | 2 | 1 | Composite HPL | 203.95 | 214.1 |
+| D | Desk | 150 x 70 | 2 | 1 | Composite HPL | 203.95 | 214.1 |
-| TS | Desk sides | 70*9 | 2 | 4 | Composite HPL | 203.95 | 51.4 |
+| TS | Desk sides | 70 x 9 | 2 | 4 | Composite HPL | 203.95 | 51.4 |
-| TBF | Table back and front | 150*9 | 2 | 2 | Composite HPL | 203.95 | 55.1 |
+| TBF | Table back and front | 150 x 9 | 2 | 2 | Composite HPL | 203.95 | 55.1 |
-| AT | Auxiliary tables | 60*50 | 0.5 | 3 | Composite HPL | 53.66 | 48.3 |
+| AT | Auxiliary tables | 60 x 50 | 0.5 | 3 | Composite HPL | 53.66 | 48.3 |
 </WRAP>
 </table>
@@ Line 1871: / Line 1865: @@
 <caption>Provisional list of woods elements for version B</caption>
 <WRAP box center 800px>
-^ Identifier ^ Name ^ Measurements (cm*cm) ^ Thickness (cm) ^ Quantity ^ Material ^ Price (€/m²) (Aprox) ^ Price (€) ^
+^ Identifier ^ Name ^ Measurements (cm x cm) ^ Thickness (cm) ^ Quantity ^ Material ^ Price (€/m²) (Aprox) ^ Price (€) ^
-| WS | Wardrobe sides | 70*200 | 2 | 4 | Composite HPL | 203.95 | 1142.2 |
+| WS | Wardrobe sides | 70 x 200 | 2 | 4 | Composite HPL | 203.95 | 1142.2 |
-| WTB | Wardrobe top and bottom| 54*72 | 2 | 2 | Composite HPL | 203.95 | 371.2 |
+| WTB | Wardrobe top and bottom| 54 x 72 | 2 | 2 | Composite HPL | 203.95 | 371.2 |
-| WDB | Wardrobe door and back | 64*200 | 2 | 2 | Composite HPL | 203.95 | 1044.2 |
+| WDB | Wardrobe door and back | 64 x 200 | 2 | 2 | Composite HPL | 203.95 | 1044.2 |
-| S | Shelves | 50*68 | 2 | 4 | Composite HPL | 203.95 | 428.2 |
+| S | Shelves | 50 x 68 | 2 | 4 | Composite HPL | 203.95 | 428.2 |
-| D | Desk | 150*70 | 2 | 1 | Composite HPL | 203.95 | 214.1 |
+| D | Desk | 150 x 70 | 2 | 1 | Composite HPL | 203.95 | 214.1 |
-| TS | Desk sides | 70*9 | 2 | 4 | Composite HPL | 203.95 | 51.4 |
+| TS | Desk sides | 70 x 9 | 2 | 4 | Composite HPL | 203.95 | 51.4 |
-| TBF | Table back and front | 150*9 | 2 | 2 | Composite HPL | 203.95 | 55.1 |
+| TBF | Table back and front | 150 x 9 | 2 | 2 | Composite HPL | 203.95 | 55.1 |
-| AT | Auxiliary tables | 60*50 | 0.5 | 3 | Composite HPL | 53.66 | 48.3 |
+| AT | Auxiliary tables | 60 x 50 | 0.5 | 3 | Composite HPL | 53.66 | 48.3 |
 </WRAP>
 </table>
@@ Line 2322: / Line 2316: @@
 ^Name^Characteristics^Price [€]^Photo^
 |TSL2561|capable of direct I2C communication and is able to conduct specific light ranges from 0.1 - 40k+ Lux easily. Additionally, the TSL12561 contains two integrating analog-to-digital converters (ADC) that integrate currents from two photodiodes, simultaneously. Each breakout requires a supply voltage of 3V and a low supply current max of 0.6mA.|8.77€|{{ :tsl_2561.jpg?100 |}}|
-|Wateflow sensor G1/2| Mini. Wokring Voltage: DC 4.5V Max. Working Current: 15mA (DC 5V) Working Voltage: DC 5V~24V Flow Rate Range: 1~30L/minLoad Capacity: 10mA (DC 5V) Operating Temperature: 80℃ Liquid Temperature: 120℃ Operating Humidity: 35%～90%RH Water Pressure: 1.75MPa Storage Temperature: -25～+ 80℃ Storage Humidity: 25%～95%RH | 9.5€ |{{ :wateflow_sensor.jpg?100 |}}|
+|Wateflow sensor G1/2| Mini. Wokring Voltage: DC 4.5V Max. Working Current: 15mA (DC 5V) Working Voltage: DC 5V~24V Flow Rate Range: 1~30L/minLoad Capacity: 10mA (DC 5V) Operating Temperature: 80℃ Liquid Temperature: 120℃ Operating Humidity: 35%-90%RH Water Pressure: 1.75MPa Storage Temperature: -25 - +80℃ Storage Humidity: 25%-95%RH | 9.5€ |{{ :wateflow_sensor.jpg?100 |}}|
 |PZEM-004T-v3|AC voltage test range 80 - 260 V, 80 - 260 V voltage, max. working current can reach 100 A | 13.5€ |{{ :electricity_sensor.jpg?100 |}}|
 </WRAP>
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 ===== Bibliography =====
-//Will be added automatically by citing, in the body of the report, entries specified in BibTeX format and stored in the https://www.eps2023-wiki1.dee.isep.ipp.pt/doku.php?id=refnotes:bib file//
-PS - //If you have doubts on how to make citations, create captions, insert formulas, etc. visit this [[https://www.eps2023-wiki1.dee.isep.ipp.pt/doku.php?id=example | page]] with examples and select "Show pagesource" to see the source code.//