Authors: Cortney Holles (Colorado School of Mines); Ekaterina Rzyankina (University of Cape Town).

Topic: Critical digital literacy.

Engineering disciplines: Computer Science; Information Systems; Biomedical engineering.

Ethical issues: Cultural context; Social responsibility; Privacy.

Professional situations: Public health and safety; Working in area of competence; Informed consent.

Educational level: Intermediate.

Educational aim: Engaging in ethical judgement: reaching moral decisions and providing the rationale for those decisions.

 

Learning and teaching notes:

The case involves an engineering student whose personal choices may affect her future professional experience. It highlights both micro- and macro-ethical issues, dealing with the ways that individual actions and decisions can scale to create systemic challenges.

An ethical and responsible engineer should know how to work with and use digital information responsibly. Not all materials available online are free to use or disperse. To be digitally literate, a person must know how to access, evaluate, utilise, manage, analyse, create, and interact using digital resources (Martin, 2008). It is important to guide engineering students in understanding the media landscape and the influence of misleading information on our learning, our political choices, and our careers. A large part of critical digital literacy is evaluating information found on the web. For students working on a research project or an experiment, accessing accurate information is imperative. This case study offers several approaches to engaging students in the critique and improvement of their critical digital literacy skills. The foundations of this lesson can be applied in multiple settings and can be expanded to cover several class periods or simplified to be inserted into a single class.

This case study addresses two of AHEP 4’s themes: The Engineer and Society (acknowledging that engineering activity can have a significant societal impact) and Engineering Practice (the practical application of engineering concepts, tools and professional skills). To map this case study to AHEP outcomes specific to a programme under these themes, access AHEP 4 here and navigate to pages 30-31 and 35-37.

The dilemma in this case is presented in two parts. If desired, a teacher can use the Summary and Part one in isolation, but Part two develops and complicates the concepts presented in the Summary and Part one to provide for additional learning. The case allows teachers the option to stop at multiple points for questions and / or activities as desired.

Learners have the opportunity to:

Teachers have the opportunity to:

 

Learning and teaching resources:

News articles:

Educational institutions:

Legal regulations:

Non-profit organisations:

Business:

 

Summary:

Katherine is a biomedical engineering student in her 3rd year in 2022, and will have a placement in a community hospital during her last term at university. She plans to pursue a career in public health after seeing what her country went through during the Covid-19 pandemic. She wants to contribute to the systems that can prevent and track public health risks from growing too large to manage, as happened with Covid-19. She is motivated by improving systems of research and treatment for emerging diseases and knows that communication between a variety of stakeholders is of the utmost importance.

 

Optional STOP for questions and activities:

1. Discussion: What can you determine about Katherine’s values and motivation for her studies and her choice of career?

2. Discussion: How do you connect with her mission to improve diagnostic and treatment systems for public health threats?

3. Discussion: Who should be responsible for the messaging and processes for public health decisions? How are engineers connected to this system?

4. Activity: Research the Covid-19 vaccine rollout in the United Kingdom versus other countries – how did power, privilege, and politics influence the response?

5. Activity: Research current public health concerns and how they are being communicated to the public. In what ways might engineers affect how and what is communicated?

 

Dilemma – Part one:

As Katherine approaches the winter holiday season, she makes plans to visit her grandmother across the country. She hasn’t seen her since before the Covid-19 pandemic and is excited to be around her extended family for the holidays once again. However, she receives an email from her cousin informing everyone that he and his family are not vaccinated against Covid-19 because the whole vaccination operation was forced upon citizens and they refused to participate. Katherine is immediately worried for her grandmother – at 85 years old, she is at a higher risk than most – and for her brother, who suffers from Addison’s disease, an autoimmune disorder. Additionally, if Katherine comes into contact with Covid-19 while celebrating the holidays with her family, she could suffer repercussions at both her university and the hospital where she will work for her placement.

 

Optional STOP for questions and activities:

1. Discussion: How can Katherine communicate with her cousin about her concerns for her brother and grandmother? How might she use her expertise as a biomedical engineer in this conversation?

2. Discussion: What kind of information will be most convincing to support her decision? What sources would provide the evidence she is looking for, and which ones would provide counter arguments?

3. Discussion: What impacts might the decision have on Katherine’s position as a student or in the hospital?

4. Discussion: Do engineers, scientists, and medical professionals have more of an obligation to promote and adhere to public health guidance? Why or why not?

5. Activity: Talk to people in your life about their experience of navigating the Covid-19 vaccine. Did they choose to get it as soon as it was available? Did they avoid getting the vaccine for particular reasons? Were there impacts on their personal relationships or work because of their choices about the vaccine?

6. Activity: Research some of the impacts on individuals with health concerns and comorbidities in regard to Covid-19 and other viruses or public health concerns. How do these experiences match with or differ from your own?

7. Activity: Investigate the different ways that engineers were involved in vaccination development and response.    

 

Dilemma – Part two:

Katherine went back to university after a lengthy break for the holidays and immediately registered for an account on Facebook as a brand-new user. She was in such a hurry to have her profile up that she did not take the time to configure any privacy settings. She stayed up late reading an article about Covid-19  that had been posted on the website of one of the online newspapers. Before she posted this report on her own Facebook page, she did not verify the accuracy of the information or the source of the information.

 

Optional STOP for questions and activities:

1. Discussion: What kind of impact might this social media activity have on Katherine’s position as a student or in the company/organisation/hospital she is working for as an intern? What should Katherine be worried or concerned about after posting information?

2. Discussion: Do social media companies collect or ask for any other non-essential information from you? Why does the website claim that they are collecting or asking for your information? Does the website share/sell/trade the information that they collect from you? With whom does the website share your collected information? How long does the website keep your collected information? Does the website delete your information, or simply de-personalise it?

3. Discussion: Regarding question 2, how are engineers involved with products, processes, or services that enable those choices and actions?

4. Discussion: What is real and fake news? How do you know? What do you look for to know if it is real or fake news (share guidelines)? Do you expect it to be easy to spot fake news? Why should we care if people distribute and believe fake news?

Students are particularly susceptible to being duped by propaganda, misleading information, and fake news due to the significant role that information and communication technology which is problematic to verify plays in their everyday life. Students devote a significant portion of their time to participating in various forms of online activity, including watching television, playing online games, chatting, blogging, listening to music, posting photos of themselves on social networking sites, and searching for other individuals with whom they can engage in online conversation. Students owe a significant portion of what they know about the world and how they perceive reality to the content that they read online. While many people share reliable and positive information online, others may engage in negative impact information sharing:

5. Discussion: What are some other examples of how engineering might fall prey to negative impact information sharing?

6. Discussion: How might engineers help address the problem of fake news and negative impact information sharing?

 

References:

Martin, A. (2008). ‘Digital Literacy and the “Digital Society”’, in Lankshear C. and Knobel M. (eds.), Digital Literacies: Concepts, Policies, and Practices. New York: Peter Lang,  (pp. 151-176).

 

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Any views, thoughts, and opinions expressed herein are solely that of the author(s) and do not necessarily reflect the views, opinions, policies, or position of the Engineering Professors’ Council or the Toolkit sponsors and supporters.

Case enhancement: Industrial pollution from an ageing pipeline

Activity: Prompts to facilitate discussion activities.

Author: Sarah Jayne Hitt, Ph.D. SFHEA (NMITE, Edinburgh Napier University).

 

Overview:

There are several points in this case during which an educator can facilitate a class discussion about relevant issues. Below are prompts for discussion questions and activities that can be used. These correspond with the stopping points outlined in the case. Each prompt could take up as little or as much time as the educator wishes, depending on where they want the focus of the discussion to be.

 

Case Summary – Discussion prompts:

1. Professional Contexts. The question listed in the case study is meant to elicit students’ consideration of working as an engineer in a professional culture different from the one they are familiar with. To answer this question, educators could have students reflect quietly and make notes for a few minutes, or discuss with a partner before sharing with the class. If students are hesitant to engage in questions of cultural differences, they could be prompted to examine why they have that discomfort. Educators might also want to prepare for conversations like this by reviewing the guidance article Tackling tough topics in discussion.

2. Meeting Preparation. The question listed in the case study focuses on the choices that engineers make when presenting data; that is, should they show managers a complete or incomplete picture of the situation in question? What implications does that have in terms of managers’ ability to make decisions? The question also is meant to help students consider aspects of professional communication. Students could be tasked with actually doing a version of the meeting preparation as pairs in the classroom, or they could do this as a reflective exercise as well.

 

Dilemma – Part one – Discussion prompts:

1. Personal and Professional Responsibility. Here, students are being asked to explore their own personal responses to the informal housing situation outside the factory and interrogate whether or not that response could or should affect their professional actions. The question also investigates the scope of professional responsibility, and at what point an engineer has fulfilled this or fallen short. To engage students in this discussion, educators could split the class in half, with half the room discussing the position that Yasin does NOT have a responsibility, and why; and the other half discussing the position that Yasin DOES have a responsibility and why. Alternatively, students could be asked to write down their own answer to this question along with reasoning why or why not, and then the educator could ask volunteers to share responses in order to open up the discussion.

2. Economic Contexts. Students can use this question to expand on question 1 of this section, and in fact they may already have drawn cost into their reasoning. One way to open up this discussion is to think of the broader costs, meaning: is there a social or environmental cost that the company externalises through its polluting activities? Another way into the question is to go back to the question of responsibility, because engineers are routinely responsible for making budgets and judgements related to costs. Through this financial activity, are they able to advocate for more ethical practices, and should they?

 

Dilemma – Part two – Discussion prompts

1. Job Offer. This question is meant to point to the issue of bribery, and have students wrestle with the situations presented in the case. Educators could have students review various definitions of bribery, including the one in the RAEng’s Statement of Ethical Principles. They could compare this with the Engineering Council of India’s Code of Ethics. What do these two codes say about Yasin’s case? If they don’t give clear guidance, what should Yasin do? Students could discuss why or why not they think this is bribery in small or large groups, and could debate what Yasin’s action should be and why.

2. External Reporting. This question addresses whistleblowing, and what responsibilities engineers have for reporting unethical actions to professional or legal entities. Students could be asked individually to answer the question and give reasons why, based on the codes of ethics relevant to the case. They could also answer the question based on their own personal values. Then they could discuss their responses in small groups and interrogate whether or not the codes conflict with their values. Educators could at this point raise the question of whether or not there may be different cultural expectations in this area that Yasin might have to navigate, and if so, if this should make any difference to the action he should take. Students could also be asked to chart out the personal and professional repercussions Yasin could experience for either action. This discussion could be good preparation for activity #5, the debate.

 

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Authors: Mr Neil Rogers (Independent Scholar); Sarah Jayne Hitt, Ph.D. SFHEA (NMITE, Edinburgh Napier University).

Topic: Suitable technology for developing countries. 

Engineering disciplines: Mechanical engineering; Electrical engineering; Energy. 

Ethical issues: Sustainability; Honesty; Integrity; Public good. 

Professional situations: Communication; Bribery; Working cultures; Honesty; Transparency. 

Educational level: Advanced. 

Educational aim: Practicing Ethical Reasoning: the application of critical analysis to specific events in order to evaluate and respond to problems in a fair and responsible way. 

 

Learning and teaching notes: 

This case study requires a newly appointed engineer to make a decision about whether or not to sell unsuitable equipment to a developing country. Situated in Ghana, the engineer must weigh perspectives on environmental ethics that may differ from those informed by a different cultural background, as well as navigate unfamiliar workplace expectations. 

The engineer’s own job security is also at stake, which may complicate decision-making. As a result, this case has several layers of relations and potential value-conflicts. These include values that underlie assumptions held about honesty, integrity, the environment and its connection to human life and services. 

This case study addresses two of the themes from the Accreditation of Higher Education Programmes fourth edition (AHEP4): The Engineer and Society (acknowledging that engineering activity can have a significant societal impact) and Engineering Practice (the practical application of engineering concepts, tools and professional skills). To map this case study to AHEP outcomes specific to a programme under these themes, access AHEP 4 here and navigate to pages 30-31 and 35-37. 

This case study is presented in two parts. If desired, a teacher can use Part one in isolation, but Part two develops and complicates the concepts presented in Part one to provide for additional learning. The case study allows teachers the option to stop at multiple points for questions and/or activities as desired.  

Learners have the opportunity to: 

Teachers have the opportunity to: 

 

Learning and teaching resources: 

Educational institutions: 

Journal articles: 

Professional organisations: 

News articles: 

NGOs: 

 

Pre-reading: 

To prepare for activities related to environmental ethics, teachers may want to read, or assign students to pre-read, the academic articles found in the resource list: ‘Environmental ethics: An overview’ or ‘Mean or Green: Which values can promote stable pro-environmental behaviour?’ 

 

Dilemma – Part one: 

You have just graduated from university as a mechanical engineer and you are starting your first job as a sales engineer for JCD Engineering, a company that designs and manufactures pumping equipment. JCD has recently expanded operations in sub-Saharan Africa and you took the job because you were excited for the opportunity to travel and work in a country and culture different from your own.  

For your first project, you have been asked to put together quite a large bid for a water pumping aid project for some farms in northern Ghana. It just so happens that there is a trade show being held in Accra, so your manager has suggested you attend the show with a colleague to help on the company stand and combine this with a site visit to where the pumping equipment is to be installed. A representative from the aid organisation agrees to drive you to where the project will be sited before the trade show takes place. 

On arrival in Ghana, you are met by the rep to take you on your journey up country. This is your first visit to a developing country; you are excited, a little apprehensive and quite surprised by disorganisation at the airport, poor infrastructure, and obvious poverty in the villages up country. Still, you immediately see the difference that water pump installation could make to improve quality of life in villages. After two days of travelling, you eventually arrive at the village where the project JCD is bidding on will be situated. You are surprised to hear that the aid rep is quite cynical about engineering aid projects from the UK; this is because many have failed and she hopes that this won’t be another one. She is very busy and leaves you with local school teacher Amadou, who will host you during your stay and act as your interpreter. 

The local chief, farmers, and their families are very excited to see you and you are taken aback by the lavish food, dancing, and reception that they have laid on especially for you. You exchange social media contacts with Amadou, who you understand has been instrumental in winning this contract. You get excited about working with Amadou on this project and the prospect of improving the livelihoods of the locals with better access to clean water. 

After some hours you get shown some of the existing pumping equipment, but you don’t recognise it and it has obviously been left idle for some time and looks to be in a poor state. The farmers appear confused and are surprised that you aren’t familiar with the pumps. They explain that the equipment is from China and was working well for many years. They understand how it operates and have even managed to repair some of the fittings in local workshops, but there are now key parts they have been waiting many months for and they assume that you have brought them with you. 

You try to explain through Amadou that there has been some misunderstanding and that you don’t have the spares but will be quoting for replacement equipment from your company in the UK. This is not what the farmers want to hear and the mood changes. They have spent many years getting to know this kit and now they can even locally fabricate some of the parts. Why would you change it all now? The farmers start shouting and Amadou takes you to one side and suggests you should respond by offering them something in return. 

What should you offer them? 

 

Optional STOP for questions and activities: 

1. Discussion: What is your initial reaction to the miscommunication? Does it surprise you? What might your initial reaction reveal to you about your own perspectives and values? 

2. Discussion: What is your initial reaction to the reception given to you? Does it surprise you? What might your initial reaction reveal to you about your own perspectives and values? 

3. Activity: Technical integration – undertake an electrical engineering technical activity related to water pumps and their power consumption against flow rates and heads. 

4. Discussion and activity: List the potential benefits and risks to implementing water pump technology compared to traditional methods of water collection. Are these benefits and risks the same no matter which country they are implemented in? 

5. Activity: Research water pumping in developing countries. What are the main technical and logistical issues with this technology? Are there any cultural issues to consider?  

6. Activity: This activity is related to optional pre-readings on environmental ethics. Consider how your perspective is related to the following environmental values, and pair/share or debate with a peer. 

 

Dilemma – Part two: 

You reluctantly backtrack a little on what you said earlier and convince Amadou and the farmers that you will be able to sort something out. Back in Accra at the local trade show, you manage to source only a few spares as a quick fix since you had to pay for them yourself without your colleague noticing. The aid representative agrees to take them up country next time she travels. 

You arrive back in the UK and begin to prepare the JCD bid. You are aware that the equipment from your company is very different to the Chinese kit that the farmers already have. It is designed to run on a different voltage and uses different pipe gauges throughout for the actual water pumping. The locally fabricated spares will definitely not connect to the JCD components you will be specifying. 

You voice your concerns to your manager about the local situation but your manager insists that it is not your problem and the bid will not win if it is not competitive. Sales in your department are not good at the moment, and after all you are a new employee on probation and you want to make a good first impression. 

Having further investigated some comments Amadou made on the trip, you discover that the water table has dropped by several metres in this part of Ghana over the last five years and you realise that the equipment originally quoted for might not even be up to the job! 

 

Optional STOP for questions and activities: 

1. Discussion: Should you disclose these newly discovered concerns about the water table height or keep quiet? 

2. Discussion: Do you continue to submit the bid for equipment that you know may be totally inappropriate? Why, or why not? 

3. Activity: Role-play a conversation between the engineer and the JCD manager about the issues that have been discovered. 

4. Discussion and activity: Research levels of the water table in West Africa and how they have changed over the last 50 years. Is there a link here to climate change? What other factors may be involved? 

5. Discussion: Environmental ethics deals with assumptions that are often unstated, such as the obligation to future generations. Some people find that our obligation is greater to people who exist at this moment than to those that don’t yet exist. Do you agree or disagree with this position? Why? Can we maintain an obligation to future generations while simultaneously saying that this must be weighed against the obligations in the here and now? 

6. Activity: Both cost-benefit and value trade-off analyses are valuable approaches to consider in this case. Determine the possible courses of action and undertake both types of analysis for each position by considering both short- and long-term consequences. (Use the Mapping actors and processes article to help with this activity.) 

7. Activity: Using reasoning and evidence, create arguments for choosing one of the possible courses of action. 

8. Activity: Use heuristics to analyse possible courses of action. One heuristic is the Environmental ethics decision making guide. Another is the 7-step guide to ethical decision-making. 

  

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Case enhancement: Business growth models in engineering industries within an economic system

Activity: Defending a profit-driven business versus a non-profit-driven business.

Author: Dr Sandhya Moise (University of Bath).

 

Overview:

This enhancement is for an activity found in the Dilemma Part one, Point 4 section of the case: “In a group, split into two sides with one side defending a profit-driven business and the other defending a non-profit driven business. Use Maria’s case in defending your position.” Below are several prompts for discussion questions and activities that can be used. These correspond with the stopping points outlined in the case. Each prompt could take up as little or as much time as the educator wishes, depending on where they want the focus of the discussion to be.

 

Session structure:

1. As pre-class work, the students can be provided the case study in written format.

2. During class, the students will need to be introduced to the following concepts, for which resources are provided below (~20 min):

3. Group activity (15 min +)

4. Whole class discussion/debate (15 min +)

 

Learning resources:

Ethics in Engineering resources:

Professional Codes of Conduct resources:

Corporate Social Responsibility Resources:

ESG Mandate Resources:

In recent years, there have been calls for more corporate responsibility in environmental and socioeconomic ecosystems globally. For example:

In 2017, the economist Kate Raworth set out to reframe GDP growth to a different indicator system that reflects on social and environmental impact. A Moment for Change?

Further reading:

 

Group Activity – Structure:

Split the class into two or more groups. One half of the class is assigned as Group 1 and the other, Group 2. Ask students to use Maria’s case in defending their position.

 

Group activity 1:

Group 1: Defend a profit-driven business model – Aims at catalysing the company’s market and profits by working with big corporations as this will enable quicker adoption of technology as well as economically benefit surrounding industries and society.

Group 2: Defend a non-profit driven business – Aims at preventing the widening of the socioeconomic gap by working with poorly-funded local authorities to help ensure their product gets to the places most in need (opportunities present in Joburg).

 

Pros and Cons of each approach:

Group 1: Defend a profit-driven business model:

Advantages and ethical impact:

Disadvantage and ethical impacts:

Group 2: Defend a non-profit driven business:

Advantages and ethical impact:

Disadvantage and ethical impacts:

 

Relevant ethical codes of conduct examples:

Royal Academy’s Statement of Ethical Principles:

Both of the above statements can be interpreted to mean that engineers have a professional duty to not propagate social inequalities through their technologies/innovations.

 

Discussion and summary:

This case study involves very important questions of profit vs values. Which is a more ethical approach both at first sight and beyond? Both approaches have their own set of advantages and disadvantages both in terms of their business and ethical implications.

If Maria decides to follow a profit-driven approach, she goes against her personal values and beliefs that might cause internal conflict, as well as propagate societal inequalities.

However, a profit-driven model will expand the company’s business, and improve job opportunities in the neighbourhood, which in turn would help the local community. There is also the possibility to establish the new business and subsequently/slowly initiate CSR activities on working with local authorities in Joburg to directly benefit those most in need. However, this would be a delayed measure and there is a possible risk that the CSR plans never unfold.

If Maria decides to follow a non-profit-driven approach, it aligns with her personal values and she might be very proactive in delivering it and taking the company forward. The technology would benefit those in most need. It might improve the reputation of the company and increase loyalty of its employees who align with these values. However, it might have an impact on the company’s profits and slow its growth. This in turn would affect the livelihood of those employed within the company (e.g. job security) and risks.

 

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The decisions engineers make on a daily basis can have significant consequences for underrepresented and disadvantaged groups in society. Prof Dawn Bonfield, Visiting Professor of Inclusive Engineering at Aston University, Royal Society Entrepreneur in Residence at King’s College London and a member of the EPC’s Engineering Ethics Advisory Group explains…

In the recent ethics report published by the RAEng (1) you might have noticed the explicit references, in an ethics context, to the societal and social justice implications of our engineering solutions that can lead to biased or discriminatory outcomes for different groups of people. This prioritisation of inclusive outcomes is a welcome expansion of the conventional focus of engineering ethics, which is often rooted in issues such as safety, corruption, and competence.

Reference was made in the first page of the report to the use of crash test dummies that have been designed to represent male drivers, leaving women (and pregnant women in particular) at greater risk in car accidents; the potential for algorithms and internet search engines to influence our thoughts on the world; issues arising from facial recognition technology failing to accurately identify those from Black, Asian and Ethnic Minority communities; and the use of artificial intelligence systems that will make safety-critical, legal, and other life changing decisions, which are often based on historical and biased datasets. You can further explore some of the issues with facial recognition technology in one of the ethics case studies produced by the EPC for their RAEng-supported Engineering Ethics Toolkit.

These are all examples of how, as engineers, we can inadvertently create solutions that are biased against minoritized groups of people if we are not careful. This generally occurs as a direct result of the fact that these groups of people are poorly represented in the engineering sector, and so their inputs are missing in the specification, design, and testing of new technologies (2).

But even before we get to a truly diverse engineering workforce, all engineers must be mindful of the ways in which the decisions they take can be discriminatory or can promulgate bias. In situations like the ones mentioned above it is relatively easy to spot the opportunity for discrimination, but in other cases it can be much more difficult. For example, there are ethical implications associated with the sort of ducting that gets chosen for a new building, where one material causes more pollution to socially and economically disadvantaged populations than another. It is in cases like this that a little more thought is required to spot whether the outcomes of these decisions are inclusive and ethical, or not.

Recently, the Covid-19 pandemic has shown us very clearly what the ethical implications are of our built environment decisions and designs, where people living in densely populated and overcrowded urban areas with minimal access to outdoor space have had significantly worse health outcomes than those with access to outdoor and green spaces. Inclusive design of the built environment is now a growing and recognised area of our engineering work, and as well as the more obvious examples of ensuring equitable access to those with disability issues, it also recognises that public spaces should be equitable and accessible to all communities. Everybody needs to see themselves represented in these environments and feel able to use them safely and fully. These are issues of ethics and inclusion, as well as social justice and equality, and the requirement we have as engineers to consider all of these perspectives as the creators of our future world must be a part of our systems engineering mindset. Several of the EPC’s ethics case studies focus on responsibility, equity, and stakeholder engagement, such as the Ageing Pipeline and its Impact on Local Communities case.

The importance of systems, design, iterative thinking, and the focus on ensuring that the whole life cycle of a product, including maintenance, repair, deconstruction, and end of life decommissioning, requires true stakeholder engagement, means that these inclusive outcomes can be considered at the very start of projects, rather than as an afterthought, where any changes are much more difficult and costly to integrate. The strengthening of the Social Value Act (3), which requires people who commission public services to explicitly evaluate how they can secure wider social, economic and environmental benefits, also puts emphasis on ensuring the outcomes of any procurement are inclusive and ethical. Similarly, the Sustainable Development Goals ethos of Leave No One Behind (4) requires that outcomes are considered from all perspectives, and that solutions taking all of the goals into account are balanced and not considered in silos. The EPC’s ethics case study on Business Growth Models allows engineering students to explore many of these issues.

Designing with the gender perspective in mind, especially in parts of the world where women have very different societal roles based on culture, stereotypes, local norms, and religion, is key to ensuring that the differences and disadvantages that women face are not exacerbated. Understanding these differences is the first step in addressing them, and in many cases, technology can act as a real enabler in situations where women have limited access to traditional education, information, and independence. For example, the widespread use of microfinance in many parts of Africa – a technology not aimed specifically at women – is nevertheless giving women much better access to loans and financial independence than the traditional banking structures did, which women are not always able to access easily. Other examples include understanding the need for sanitation facilities in public spaces such as schools, government offices, transportation hubs and health clinics, without which women’s access to these facilities becomes restricted and their participation curtailed (5).

Another ethical issue comes into play here too. Do we design just to remove bias and discrimination, or do we design to reverse historical bias and discrimination? For example, women have traditionally worked in certain sectors such as care giving roles, and not in sectors like engineering and technology. Algorithmic decision-making tools can use this historical data to preferentially show stereotypical job opportunities based on past trends and evidence, which could foreseeably prevent women from being targeted for engineering related roles. Adapting these tools to make these job opportunities open to all in an equitable way is one thing, but what if we decided to preferentially show engineering roles to women and caring roles to men – a kind of social engineering, if you will? What are the ethics of this, and would that be going too far to remove biases? I will leave you to think about this one yourselves!  If you would like to write a case study about it, we are currently looking for contributors to the toolkit!

The decisions we make daily as engineers have consequences to individuals and communities that have not always been understood or considered in the past, but by understanding the need for inclusive outcomes for all stakeholders, we also ensure that our solutions are ethical, and that we leave no on behind. The ethics case studies in the EPC’s recently launched Engineering Ethics Toolkit reveal the ethical concepts that comprise our everyday activities and what lies behind those decisions – resources like this should be used to ensure ethical decision making is integrated throughout an engineers’ education and continuing professional development.

This blog is also available here.

 

References

  1. RAEng Ethics Report https://raeng.org.uk/policy-and-resources/education-policy/the-engineering-profession/global-responsibility-and-progressive-engineering-leadership/ethics
  2. inceng.org website
  3. Social Value Act https://www.gov.uk/government/publications/social-value-act-information-and-resources/social-value-act-information-and-resources
  4. Sustainable Development Goals ethos of Leave No One Behind https://unsdg.un.org/2030-agenda/universal-values/leave-no-one-behind
  5. Towards Vision Website ‘Gender Perspective in Engineering’ http://www.towardsvision.org/the-gender-perspective-in-engineering.html

 

Dawn Bonfield MBE CEng FIMMM FICE HonFIStructE FWES is Visiting Professor of Inclusive Engineering at Aston University and Royal Society Entrepreneur in Residence at King’s College London.

 

This blog is also available here.

Any views, thoughts, and opinions expressed herein are solely that of the author(s) and do not necessarily reflect the views, opinions, policies, or position of the Engineering Professors’ Council or the Toolkit sponsors and supporters.

Authors: Professor Sarah Hitt SFHEA (NMITE); Dr Nik Whitehead (University of Wales Trinity Saint David); Dr Matthew Studley (University of the West of England, Bristol); Dr Darian Meacham (Maastricht University); Professor Mike Bramhall (TEDI-London); Isobel Grimley (Engineering Professors’ Council).

Topic: Trade-offs in the energy transition.

Engineering disciplines: Chemical engineering, Electrical engineering, Energy.

Ethical issues: Sustainability, Honesty, Respect for the environment, Public good.

Professional situations: Communication, Bribery, Working cultures.

Educational level: Intermediate.

Educational aim: Practise ethical reasoning. Ethical reasoning applies critical analysis to specific events in order to consider, and respond to, a problem in a fair and responsible way.

 

Learning and teaching notes:

This case requires an engineer with strong convictions about sustainable energy to make a decision about whether or not to take a lucrative contract from the oil industry. Situated in Algeria, the engineer must weigh perspectives on environmental ethics that may differ from those informed by a different cultural background, as well as navigate unfamiliar workplace expectations. The engineer’s own financial wellbeing is also at stake, which may complicate decision-making. As a result, this case has several layers of relations and potential value-conflicts. These include values that underlie assumptions held about the environment and its connection to human life and services.

This case study addresses two of AHEP 4’s themes: The Engineer and Society (acknowledging that engineering activity can have a significant societal impact) and Engineering Practice (the practical application of engineering concepts, tools and professional skills). To map this case study to AHEP outcomes specific to a programme under these themes, access AHEP 4 here and navigate to pages 30-31 and 35-37.

The case is presented in two parts. If desired, a teacher can use Part one in isolation, but Part two develops and complicates the concepts presented in Part one to provide for additional learning. The case allows teachers the option to stop at multiple points for questions and/or activities as desired. To prepare for activities related to environmental ethics, teachers may want to read, or assign students to pre-read the following academic articles: ‘Environmental ethics: An overview’ or ‘Mean or Green: Which values can promote stable pro-environmental behavior?’

Learners have the opportunity to:

Teachers have the opportunity to:

 

Learning and teaching resources:

 

Summary:

You are an electrical engineer who had a three-year contract with a charity in Algeria to install solar systems on remote houses and farms that were not yet connected to the grid. The charity’s project came to an end and you have set up your own company to continue the work. It has been difficult raising money from investors to fund the project and the fledgling business is in debt. It is doubtful that your company will survive for much longer without a high-profit project.

During your time in Algeria, you have made many local and regional contacts in the energy industry. Through one of these contacts, you learn of an energy company operating a large oil field in the region that is looking to convert to solar energy to power its injection pumping, monitoring, and control systems. In doing so, the oil field will eliminate its dependency on coal-fired electricity, increasing production while boosting the company’s environmental credentials. It also hopes to make use of a governmental tax credit for businesses that make such solar conversions.

 

Optional STOP for questions and activities:

1. Discussion: What is your initial reaction to using solar energy for oil and gas production? What might your initial reaction reveal to you about your own perspectives and values?

2. Discussion and activity: List the potential benefits and risks to implementing this technology. Are these benefits and risks the same no matter which country they are implemented in?

3. Activity: Research the trend for using solar energy in oil and gas production. Which companies are promoting it and which countries are using this technology?

4. Discussion and activity related to optional pre-readings: Consider how your perspective is related to the following environmental values, and pair/share or debate with a peer.

 

Dilemma – Part one:

The following week you receive a phone call in your home office. It is a representative of the energy company named Sami. He asks you to bid for the solar installation contract for the oilfield. At first you are reluctant, it doesn’t seem right to use solar power to extract fuel that will contribute to the ongoing climate emergency. You explain your hesitation, saying “I got into the solar business because I believe we have a responsibility to future generations to develop sustainable energy.” Sami laughs and says “While you’re busy helping people who don’t exist yet, I’m trying to provide energy to the people who need it now. Surely we have a responsibility to them too?”

Sami then quotes a figure that the company is willing to pay you for the project work. You are taken aback at how large it is – the profit made on this contract would be enough to pay off your debts and give your business financial security moving forward. Still, you hesitate, telling Sami you need some time to think it over. He agrees and persuades you to attend dinner with him and his family later that week.

 

Optional STOP for questions and activities:

1. Discussion: Have you done anything wrong by accepting Sami’s dinner invitation?

2. Discussion: Environmental ethics deals with assumptions that are often unstated, such as the obligation to future generations. Like Sami, some people find that our obligation is greater to people who exist at this moment, not to those that don’t yet exist. Do you agree or disagree with this position? Why? Can we maintain an obligation to future generations while simultaneously saying that this must be weighed against the obligations in the here and now?

3. Activity: Both cost-benefit and value trade-off analyses are valuable approaches to consider in this case.  Determine the possible courses of action and undertake both types of analysis for each position by considering both short- and long-term consequences. [use the Mapping actors and processes article to help with this activity].

4. Activity: Using reasoning and evidence, create arguments for choosing one of the possible courses of action.

5. Activity: Undertake technical calculations in the areas of chemical and / or electrical engineering related to carbon offset and solar installations.

 

Dilemma – Part two:

When you arrive at Sami’s house for dinner you are surprised to find you aren’t the only guest. Leila, a finance manager at the oil company is also present. During the meal, she suggests they are considering investing in your business. “After all,” she points out, “many of our employees and their families could really use solar at their homes. We have even decided to subsidise the installation as a benefit to them.”

You are impressed by the oil company’s commitment to their workers and this would also guarantee you an income stream for 3-5 years. Of course, to guarantee the investment in your company, you will have to agree to undertake the oil field installation. You comment to Leila and Sami that it feels strange to be having these formal discussions over a family meal. “This is how we do business here,” says Sami. “You become part of our family too.”

 

Optional STOP for questions and activities:

1. Discussion: Do you accept the contract to complete the installation? Do you accept the investment in your company? Why, or why not?

2. Discussion: Is this bribery? Why, or why not?

3. Activity: Role-play the conversation between Sami, Leila, and the engineer.

4. Activity: Use heuristics to analyse possible courses of action. One heuristic is the Environmental ethics decision making guide. Another is the 7-step guide to ethical decision-making.

 

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Any views, thoughts, and opinions expressed herein are solely that of the author(s) and do not necessarily reflect the views, opinions, policies, or position of the Engineering Professors’ Council or the Toolkit sponsors and supporters.

Authors: Professor Sarah Hitt SFHEA (NMITE); Professor Chike Oduoza (University of Wolverhampton); Emma Crichton (Engineering Without Borders UK); Professor Mike Sutcliffe (TEDI-London); Dr Sarah Junaid (Aston University); Isobel Grimley (Engineering Professors’ Council).

Topic: Monitoring and resolving industrial pollution.

Engineering disciplines: Chemical engineering; Civil engineering; Manufacturing; Mechanical engineering.

Ethical issues: Environment, Health, Public good.

Professional situations: Bribery, Whistleblowing, Corporate social responsibility, Cultural competency.

Educational level: Advanced.

Educational aim: To encourage ethical motivation. Ethical motivation occurs when a person is moved by a moral judgement, or when a moral judgement is a spur to a course of action. 

 

Learning and teaching notes:

This case requires an engineer to balance multiple competing factors including: economic pressure, environmental sustainability, and human health. It introduces the perspective of corporate social responsibility (CSR) as a lens through which to view the dilemma. In this case study, the engineer must also make decisions that will affect their professional success in a new job and country.  

This case study addresses two of AHEP 4’s themes: The Engineer and Society (acknowledging that engineering activity can have a significant societal impact) and Engineering Practice (the practical application of engineering concepts, tools and professional skills). To map this case study to AHEP outcomes specific to a programme under these themes, access AHEP 4 here and navigate to pages 30-31 and 35-37.

The dilemma in this case is presented in two parts. If desired, a teacher can use Part one in isolation, but Part two develops and complicates the concepts presented in Part one to provide for additional learning. The case allows teachers the option to stop at multiple points for questions and/or activities as desired.

Learners have the opportunity to:

Teachers have the opportunity to:

 

Learning and teaching resources:

 

Summary:

Yasin is a pipeline design engineer who has been employed to manage the wastewater pipeline for MMC Textile Company in Gujarat. The company has a rapidly growing business contributing to one of India’s most important industries for employment and export. Yasin was hired through a remote process during the pandemic – he had never been to the industrial site or met his new colleagues in person until he relocated to the country. For 10 years, Yasin worked for the Water Services Regulation Authority in the UK as a wastewater engineer; this is the first time he has been employed by a private company and worked within the textile industry.

The production of textiles results in highly toxic effluent that must be treated and disposed of. A sludge pipeline takes wastewater away from MMC’s factory site and delivers it to a treatment plant downstream. On arrival at MMC, Yasin undertakes an initial inspection of the industrial site and the pipeline. He conducts some testing and measurements, then reviews the company’s documents and specifications related to the pipeline. This pipeline was built 30 years ago when MMC first began operations. In the last five years, MMC has partnered with a fast fashion chain and invested in advanced production technologies, resulting in a 50% increase in its yearly output. Yasin soon realises that as production has increased, the pipeline sometimes carries nearly double its registered capacity. Yasin was hired because MMC’s managers were aware that the pipeline capacity might be stretched and needed his expertise to develop a solution. However, Yasin suspects they are unaware of the real extent of the problem, and is nervous about how they will react to confirmation of this suspicion. Yasin is due to provide an informal verbal report on his initial inspection to the factory managers. This will be his first official business meeting since arriving in India.

 

Optional STOP for questions and activities:

1. Discussion: Although Yasin is a qualified and experienced engineer, what professional challenges might he encounter at MMC?

2. Discussion: What preparation does Yasin need to make for this informal meeting? What data or evidence should he present?

3. Activity: Role-play Yasin’s first meeting with the factory managers.

4. Activity: Research the environmental effects of textile production and / or India’s policies on textile waste management.

 

Dilemma – Part one:

At the meeting, Yasin is tasked with developing a menu of proposals to mitigate the problem. The options he puts forward include retrofitting the original pipeline, replacing it with a new one, eliminating the pipeline entirely and focusing on on-site water treatment technology, as well as other solutions. He is directed to consider the risks and benefits of the alternatives. These include the economic burdens, both the cost of the intervention as well as the decline in production necessitated while the intervention takes place, and the environmental consequences of action or inaction.  

During his research, Yasin discovers that informal housing has sprung up in the grey zone between the area’s formal zoned conurbation and the MMC industrial site. This is because there is little local regulation or enforcement as to where people are allowed to erect temporary or permanent dwellings. He estimates that there are several thousand people living in impoverished conditions on the edges of MMC’s property. Indeed, many of the people living in the informal settlement work in the lowest-skilled jobs at the textile factory. The informal settlement is located around a well that Yasin suspects may be polluted by effluent that seeps into the soil and groundwater when the pipeline overflows. He can find no information in company records about data related to this potential pollution.

 

Optional STOP for questions and activities:

1. Discussion: Does Yasin have a responsibility to do anything about the potential groundwater pollution at the informal settlement?

2. Discussion: Should Yasin advocate for the solution with the lowest cost?

3. Activity: Practise problem definition. What are the parameters and criteria Yasin should use in defining the issues at stake? What elements of the problem is he technically or ethically obligated to resolve? Why?

4. Activity: Create a tether diagram mapping the effects of each potential solution on the company, the local people, and the environment.

5. Activity: Undertake a technical activity in the areas of chemical, civil, manufacturing and / or mechanical engineering related to groundwater pollution.

 

Dilemma – Part two:

As Yasin learns more about MMC, he discovers that as the company grew rapidly in the last five years,  and has boosted its CSR initiatives, MMC started a programme to hire and upskill local labourers and began a charitable foundation to make donations to local schools and charities. For these activities, MMC has recently received a government commendation for its community commitments. Yasin is concerned about how to make sense of these activities on the one hand, and the potential groundwater contamination on the other. He speaks to his supervisor about MMC’s CSR initiatives and learns that company directors believe that their commendation will pave the way for an even better relationship with the government and perhaps enable a favourable decision on a permit to build another textile factory site nearby. At the end of the conversation, his supervisor indicates that if a new factory is built, it will need a chief site engineer. “That position would be double your current salary,” the supervisor says, “a good job on fixing this pipeline situation would make you look like a very attractive candidate.” Yasin is due to formally present his proposal about the pipeline next week to the factory manager and company directors.

 

Optional STOP for questions and activities:

1. Discussion: How should Yasin respond to the suggestion of a job offer?

2. Discussion: Should Yasin report any of MMC’s actions or motivations to an external authority?

3. Activity: Research CSR and its ethical dimensions, both in the UK and in India.

4. Activity: Undertake a technical activity in the areas of chemical, civil, manufacturing and / or mechanical engineering, related to pipeline design and flow rates.

5. Activity: Debate whether or not Yasin should become a whistleblower, either about the groundwater pollution or the job offer.

 

Enhancements:

An enhancement for this case study can be found here.

 

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Any views, thoughts, and opinions expressed herein are solely that of the author(s) and do not necessarily reflect the views, opinions, policies, or position of the Engineering Professors’ Council or the Toolkit sponsors and supporters.

Authors: Dr Sarah Junaid (Aston University); Emma Crichton (Engineers Without Borders UK); Professor Dawn Bonfield MBE (Aston University); Professor Chike Oduoza (University of Wolverhampton); Johnny Rich (Engineering Professors’ Council); Steven Kerry (Rolls-Royce); Isobel Grimley (Engineering Professors’ Council).

Topic: Ethical entrepreneurship in engineering industries.

Engineering disciplines: Mechanical engineering, Electrical and electronic engineering, Chemical engineering.

Ethical issues: Justice, Corporate social responsibility, Accountability.

Professional situations: Company growth, Communication, Public health and safety.

Educational level: Beginner to advanced.

Educational aim: To encourage ethical motivation. Ethical motivation occurs when a person is moved by a moral judgement, or when a moral judgement is a spur to a course of action. 

 

Learning and teaching notes: 

This case involves the CEO of Hydrospector, a newly formed company that makes devices detecting water leaks. The CEO has been working hard to secure contracts for her new business and has a personal dilemma in structuring her business model. She must balance the need to accelerate growth by working with high revenue global corporations, with her desire to bring a positive impact to the communities with greatest need. By working with less wealthy local authorities, the company risks slower business growth.

This dilemma can be addressed from a micro-ethics point of view by analysing personal ethics, intrinsic motivations and moral values. It can also be analysed from a macro-ethics point of view, by considering: corporate responsibility in perpetuating inequity versus closing the inequality gap; and sustainability in terms of the local socioeconomic system.

There is also a clear cultural context in this case study that provides an opportunity to develop cultural awareness when addressing engineering problems. Through this lens, this case can be structured to emphasise the need to engage with local communities and stakeholders – such as a UK company choosing to engage with its local community first. Or it can be framed to emphasise global responsibility whereby the CEO of a UK company chooses to address water shortages in South Africa.

This case study addresses two of AHEP 4’s themes: The Engineer and Society (acknowledging that engineering activity can have a significant societal impact) and Engineering Practice (the practical application of engineering concepts, tools and professional skills). To map this case study to AHEP outcomes specific to a programme under these themes, access AHEP 4 here and navigate to pages 30-31 and 35-37.

The case study is presented in three parts. Part one introduces the case and discusses personal and corporate ethical dilemmas, with an emphasis on ethical awareness. Pre-reading may be needed on the environmental, social, and governance (ESG) mandate and / or corporate social responsibility (CSR). Part two expands on Part one to bring in the socio-political elements of corporate responsibility. For Part three, instructors or programme directors could incorporate this exercise in projects that involve product development, with students working through Part one and two as examples. This part aims to encourage ethical action on the part of students who are developing their own products, so that they can consider aspects of justice, responsibility, and sustainability in their engineering solutions. This case also allows teachers the option to stop at multiple points for questions and / or activities as desired.

Learners have the opportunity to:  

Teachers have the opportunity to:   

 

Learning and teaching resources: 

 

Foreword and suggested pre-reading for Part one:

In the last few years, there have been calls for more corporate responsibility in environmental and socioeconomic ecosystems globally. For example:

 

Part one:

Maria is a young co-founder and technical lead (CTO) living in the UK looking at the business development of her newly-formed transnational company, Hydrospector, based in Johannesburg (Joburg), South Africa, where her co-founder/CEO is located. The company makes devices that detect water leaks and the small team has been working hard to secure contracts for their new business. Maria is an electrical and electronics engineer by training and was the lead inventor for this technology. She has proven her technology works in detecting leaks early and at low levels, lowering the risk of damage to infrastructure that impacts local communities. The technology will also save companies millions each year by detecting low-level water loss that currently remains undetected. Her company is now in a position where they need to find customers.

Targeting big corporations will mean her technology will get out much more quickly and be a huge economic benefit to surrounding industries and society. Maria comes from a lower socioeconomic background in Lancashire (UK) and her personal experience of the economic disparity between the different areas she has lived in, means she feels strongly about not wanting to perpetuate this norm. She feels that Hydrospector’s business growth model needs to have a more active approach in preventing the widening of the socioeconomic gap. In Joburg, where the company is based, there are stark differences in the affluence of neighbouring communities. Should she focus on working with poorly-funded local authorities to help ensure their product gets to the places most in need, rather than prioritise projects that will be more lucrative and accelerate the business more quickly?

 

Optional STOP for questions and activities: 

1. Discussion: Personal values – what personal values are causing the internal conflict for Maria? Does her own background make a difference to the issues at stake? If Maria was from an affluent area / background, how may this have affected her perspective?

2. Discussion: Professional values – what ethical principles and codes of conduct are applicable to this scenario?

3. Discussion: Wider impact – is focusing on profit alone morally inferior to prioritising ESG?

4. Activity: In a group, split into two sides with one side defending a profit-driven business and the other defending a non-profit driven business. Use Maria’s case in defending your position.

5. Activity: Technical integration – undertake a technical activity in the areas of mechanical, electrical and / or chemical engineering related water flow detection sensors.

 

Foreword and pre-reading for Part two:

It is useful to learn more about the context (geographical, political, social and cultural) of this case study in order to gain a deeper understanding of the nuances that each scenario brings. The following section outlines the local problems with water supply and misuse in South Africa compared to the UK. The links below are starting points to explore these challenges further and carry out research when working on projects as an engineer. They represent perspectives from news, government, and industry sources.

 

Part two:

The CEO and Operations Manager of Hydrospector is Maria’s friend and co-founder, Lucy, who grew up in Joburg. Like Maria, Lucy grew up experiencing the socioeconomic disparity in her area. Lucy’s passion for bringing benefits to disadvantaged communities makes their collaboration an ideal partnership. The company started trading in South Africa where there is a particular interest from Johannesburg Water, the main local water supply company. Water supply shortages in the region have badly affected the country in recent years. Hydrospector has successfully won a bid with a venture capitalist based in South Africa and has rolled out the sensors in Makers Valley, Joburg, a region that has developed economically in recent years. Soon after, the company also won a contract to install sensors in the Merseyside region of the UK in a trial project co-funded by the local council and United Utilities.

 

Scenario A – Environmental impact:

Hydrospector’s components are sourced in South Africa with both manufacturing and assembly carried out locally in Joburg. It has taken Lucy and her team a year to develop supply and manufacturing operations to run smoothly and economically. To ship to the UK would be a financially better deal for the company than to source and manufacture the product locally in the UK. However, the impact of the carbon footprint would not help their ESG goals. Lucy will have to decide whether to ship the product from South Africa or produce the product locally and therefore set up another operations team in the UK. Setting up in the UK will cost the company more due to component pricing, but would support the local economy. The company could potentially afford to set up UK operations, but this will impact heavily on their financial profit forecast in the first couple of years.

 

Optional STOP for questions and activities: 

1. Discussion: What should Lucy decide? What considerations does she need to make for supply chain management, when considering local customers compared to global ones?

2. Discussion: What could be the unintended consequences of her decision? Consider this question from the following points of view: environmental, economic and social – the public view.

 

Scenario B – Unintended outcomes:

After six months’ post-installation work in inner-city Bertrams, Makers Valley, Johannesburg Water has contacted Hydrospector about the illegal tapping of its pipes. They suspect water is being stolen from these settlements according to data from the installed sensors. Furthermore, engineers from Johannesburg Water carrying out maintenance work have found some of the sensors have been deliberately damaged, which they suspect has been done so that illegal tapping goes undetected. Johannesburg Water wants to prosecute those responsible and has contacted Lucy to provide all the data logged from the sensors and the time/date stamps to identify specific details about damage. Lucy, however, is aware of cases where funds intended to be used to improve infrastructure for low-income households such as electricity, water supply and sanitation, have sometimes been poorly managed and at worse embezzled so that the communities are left worse off, with ageing pipes and infrastructure. She realises that some illegal tapping may have been done in order to provide for these communities.

Several weeks after this discovery, United Utilities in Merseyside has been in touch about local individuals and companies illegally accessing water from hydrants that are found in street drains for their own usage. These companies have mobile trucks and so have been difficult to find and prosecute. United Utilities would like Hydrospector’s full co-operation in providing the logging data needed, as well as installing sensors at targeted locations where they suspect misuse is happening. Lucy’s research has found that 99% of leakages in the UK are not illegally sourced but rather are due to poor pipe networks. In fact, 20% of water supply loss in the UK is due to leaks and paid for by the customer (domestic users).

 

Optional STOP for questions and activities: 

1. Discussion: How should Hydrospector respond to the two requests? Should the response be the same or different? If the same, why? If different, what makes the two cases different?

2. Discussion: Should water supply companies ultimately be responsible for water leakages? If so, why are they charging domestic users for the 20% water loss? What are the environmental implications of this business decision?

3. Discussion: Maria and Lucy are also concerned that, if these cases were to be picked up by the media, there might be a reputational risk for the company and their ability to achieve their business vision and goals. The co-founders are worried about their product’s unintended consequences., They feel that it could be misused, potentially exacerbate socio-economic inequality further and go against the intended use of the product. Are they right to be concerned? Are they responsible for unintended outcomes?

4. Activity: What role should engineers have in shaping public policy? Often laws and regulations related to policy are dependent on technical knowledge, but some engineers believe it is not their role or responsibility to help shape policy. Debate this issue, or research the relationship between engineering and policy.

 

Scenario C – Public trust:

Hydrospector has been involved in a project where it surveyed and identified significant leakages and damage to the water supply system in one of the communities in Joburg. The company has been asked by the local authorities not to disclose this information to other parties, particularly media outlets, due to the security risks, including potential terrorism. However, this will affect the transparency of the project, which is publicly funded. In addition, reporting these findings could help resolve the problems found, for example, supply and construction companies may be willing to step up to help.

The company suspects that the local authorities are seeking to avoid a public outcry for the sake of impact scores on customer satisfaction. However, without public knowledge, change to improve the situation is likely to be slow.

 

Optional STOP for questions and activities: 

1. Discussion: Should the company keep the data unpublished or report the data? What ethical reasons can you identify for either choice?

2. Discussion: Should transparency be prioritised over public trust every time? Why or why not?

3. Activity: Debate the above questions by splitting up the students and having each group / individual represent the potential perspectives of United Utilities, Johannesburg Water and Maria / Lucy.

4. Discussion: What guidelines should companies be given for releasing publicly funded data and data misuse?

 

Foreword and pre-reading for Part three:

This exercise can be supported by technical and non-technical sessions such as business models, SWOT analysis, project management and risk.

 

Part three:

First, introduce Parts one and two of this case study to inform the exercise as part of a student project, such as a final year capstone.

Design a business growth model for an engineered product, identifying the potential socioeconomic impact, providing a viable profitable forecast and a life cycle sustainability assessment. Explore the ESG indicators and Raworth’s Doughnut of social and planetary boundaries as starting points.

 

Optional STOP for questions and activities: 

1. Discussion and activity: Is impact your main priority? What type of impact are you looking to gain for your business? Consider economic, personal, social and environmental impacts – such as research exercise.

2. Discussion: What risks and opportunities can be identified (SWOT) for the different growth models that could be used to achieve the impact you desire?

3. Activity: Create a business growth model and plan based on your critical research.

4. Activity: Draft a CSR plan for this business.

5. Activity: Speak to people in non-engineering fields that can review and help develop your model.

 

Enhancements:

An enhancement for this case study can be found here.

 

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Any views, thoughts, and opinions expressed herein are solely that of the author(s) and do not necessarily reflect the views, opinions, policies, or position of the Engineering Professors’ Council or the Toolkit sponsors and supporters.

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