Humanitarian engineering is the application of engineering for humanitarian aid purposes. As a meta-discipline of engineering, humanitarian engineering combines multiple engineering disciplines in order to address many of the world's crises and humanitarian emergencies, especially to improve the well-being of marginalized populations. [1]
Encyclopædia Britannica defines humanitarian engineering as:
Humanitarian engineering, the application of engineering to improving the well-being of marginalized people and disadvantaged communities, usually in the developing world. Humanitarian engineering typically focuses on programs that are affordable, sustainable, and based on local resources. Projects are typically community-driven and cross-disciplinary, and they focus on finding simple solutions to basic needs (such as close access to clean water; adequate heat, shelter, and sanitation; and reliable pathways to markets). [2]
The phrase "humanitarian engineering" was in little use before the early 2000s. Usage of the phrase "humanitarian engineering" practically does not exist in any professional literature from the 1800s to the year 2000. [3]
However, the concept of utilizing engineering as a mechanism of promoting societal welfare has existed since the early days of the discipline. [4] It evolved out of the creation of an engineering code of ethics as well as the acceptance of engineering ethics as a whole. While, initially, the notion of ethics was associated with personal decision, over time, a general framework of what an engineer ought to do became established. The creation of organizations such as the National Society of Professional Engineers furthered this trend, as many such organizations began to adopt codes of ethics specifically meant to create an ethics framework for engineers. Within these codes of ethics, obligations that engineers have to society were explicitly stated including ideas like: "Engineers shall at all times strive to serve the public interest." [5] This evolved into the creation of humanitarian engineering projects meant to promote societal welfare. As a result, in the early days of the discipline, humanitarian engineering was really only an application of engineering ethics as well as something that was just a part of individual engineering disciplines.
As a discipline of study, though, it was around 2003, when the Colorado School of Mines created the first humanitarian engineering minor, that humanitarian engineering truly gained more recognition. [6] Over time, as more and more universities have created programs explicitly for humanitarian engineering, it has grown as a standalone discipline, rather than just an implicit part of general engineering discipline.
Most engineering disciplines have a code of ethics that encourage working to improve the general welfare. For example, the Institute of Civil Engineers actively encourages the utilization of civil engineering in humanitarian work, calling it the "highest calling" of the occupation. Active work in the field ranges from an understanding of safety in humanitarian projects, to case studies on road building, refugee camps, footbridges, disaster response, housing and environmental clean-up. [7] Likewise, organizations for other disciplines such as chemical engineering, environmental engineering, mechanical engineering, and biomedical engineering also encourage applying their respective disciplines for humanitarian engineering. This is coupled with the fact that many organizations, especially universities, conduct humanitarian engineering products utilizing skills from specific disciplines. [8]
The Peru Project originated at UC Berkeley's chapter of Engineers Without Borders, and its goal was to introduce safe water sources to communities affected by groundwater wells that contained high levels of arsenic. [9] The engineers built rainwater catchment systems in schools which utilized roof gutters to collect rainwater, a flush system to filter debris from the gutters, and a tank to collect the water. The water is made drinkable through chlorine disinfection and is distributed to other locations through piping. This has provided the community with clean water that is safe for consumption and cooking. [8] The second initiative saw the group partnering with local health ministries to formulate a comprehensive arsenic education program to teach the community about the dangers of consumption. [8]
This project led by Oregon State University involves students and faculty helping Pakistan attempt to harvest their potential for hydropower generation. The group has produced open-source modeling tools that can generate climate data to analyze long-term trends. [10]
The Nyamilu Community Water Project began in 2005 as an Engineers Without Borders project led by both Dartmouth College and Louisiana State University. Dartmouth engineers were tasked with locating an appropriate location for a well, securing a permit for drilling, building the well, and installing a solar-powered water pump; Louisiana State University students would be in charge of building a water distribution system. After overcoming various setbacks, the engineers managed to complete the project with assistance from the village residents. The result of this project was a 30,000-liter tank and 6,000 meters of pipe that helped distribute this water within a two-kilometer radius. [11]
The Global Research on WaSH (water, sanitation, and hygiene) to Eliminate childhood Stunting (GRoWES) project is an example of convergence research with diverse environmental health professionals – including engineers, nurses, and sanitarians – working together with communities to solve a complex societal challenge – namely, children growing up to be significantly short of stature (also known as stunted). [12] [13] [14] [15] The GRoWES project developed a novel approach leveraging community-based participatory research, mixed-methods, and interprofessional education to address the interface of providing access to drinking water and assuring food security. [16] The GRoWES project has completed projects in rural villages in Guatemala, [17] rural villages in Brazil, [18] and informal settlements in South Africa. [19]
An education in humanitarian engineering incorporates history, politics, economics, sociology, language, as well as rigorous engineering basics. Several universities in the United States focus efforts on Humanitarian Engineering:
Colorado School of Mines was the first school in the U.S. to offer Humanitarian Engineering as a minor. [20] The Colorado School of Mines' Humanitarian Engineering program currently offers minors in Engineering for Community Development and Leadership in Social Responsibility, and a master's degree in Humanitarian Engineering. [6]
Ohio State University, which also offers a minor in the field, has many local and international service projects, courses, and research in Humanitarian Engineering. OSU has been engaged in humanitarian engineering since 1979, and has grown to fully involve students since 2004. [21] Some of their student organizations include Engineers for Community Service (ECOS), who completed a project at an orphanage in Montaña de Luz to help children affected by HIV/AIDS. In 2012, the Humanitarian Engineering Scholars (HES) program was formed, followed by a general Humanitarian Engineering course, and a Humanitarian Engineering Minor in 2014. [22]
The University of Texas at Austin Cockrell School of Engineering began a humanitarian engineering program in 2010 with a field program called Projects for Underserved Communities. The program expanded to include a yearlong Humanitarian Product Development program and study abroad programs. An 18-credit hour Humanitarian Engineering Certificate is available for undergraduate students. [23]
Oregon State University offers an undergraduate minor based on a set of Humanitarian Engineering, Science and Technology (HEST) courses including an international field course, as well as undergraduate and graduate research, capstone design projects with international partners, and a graduate fellowship program. [24] The department has also planned and led projects in places such as Uganda, Guatemala, and Pakistan. [25]
Drexel University offers a master's degree in Peace Engineering following some of the same humanitarian principles and includes a graduate level co-op where students can apply the concepts in the field in places such as refugee camps. [26]
Villanova University has a program in Humanitarian Engineering with roots that go as far back as the early 1990s. The establishment of a program in Engineering Service-Learning which started in 2004 has since evolved into the Center for Humanitarian Engineering and International Development (C4HE) in 2019. The establishment of the C4HE has created a foundation for vertical and horizontal integration of international outreach where engineering students from all disciplines and all years, including graduate students, provide technical support to global non-profit organization via engineering design, capacity building, and research on sustainable development.[27] [28]
Other schools such as Arizona State University, Purdue University, Penn State University, Dartmouth College, and many others have begun to offer majors, minors, and graduate programs in Humanitarian Engineering.
EWB is an umbrella organization with chapters in multiple universities and organizations across the globe. Its focus is on creating engineering projects that help marginalized communities across the globe. These projects are conducted by chapter organizations and emphasize education and sustainability. It also has a secondary focus on utilizing like-minded organizations to cut across borders and create change. [27]
EAP is an organization that focuses on creating independent projects that focus on helping marginalized communities. These independent projects are then collaborated on with strategic partners. Projects mainly focus on education, infrastructure, and oil and gas. [28]
Formerly called "Register of Engineers for Disaster Relief," this organization is an international NGO that works to support organizations and individuals that are addressing humanitarian emergencies, offer opportunities for people to participate in this work both directly and indirectly, and support any initiatives that fall within the field of humanitarian engineering. REDR primarily focuses on training relief organizations to help communities hurt by recent disasters. [29]
ESW is a nonprofit network that attempts to solve key sustainability problems through projects. It is an umbrella organization with chapters in over 50 universities. [30]
E4C is an online, international community of engineers that collaborate to fix global problems in the status quo. Many of the members collaborate online to create solutions to these problems. There is also an emphasis on education with its website providing information on how to design solutions. [31]
Civil engineering is a professional engineering discipline that deals with the design, construction, and maintenance of the physical and naturally built environment, including public works such as roads, bridges, canals, dams, airports, sewage systems, pipelines, structural components of buildings, and railways.
Environmental engineering is a professional engineering discipline related to environmental science and environmental health. It integrates broad scientific topics like chemistry, biology, ecology, geology, hydraulics, hydrology, and microbiology with mathematics and the engineering design process to develop solutions to problems of planetary health. This work may involve concerns such as waste treatment, site remediation, and pollution control technology. Often environmental engineers receive training in other disciplines of engineering, such as civil engineering or chemical engineering. Historically, environmental engineering was equivalent to sanitary engineering, and environmental engineers often work in humanitarian engineering in less developed or marginalized communities.
A civil engineer is a person who practices civil engineering – the application of planning, designing, constructing, maintaining, and operating infrastructure while protecting the public and environmental health, as well as improving existing infrastructure that may have been neglected.
Engineers Without Borders International (EWB-I) is an association of individual Engineers Without Borders/Ingénieurs sans frontières groups. EWB-I facilitates collaboration and the exchange of information among the member groups. EWB-I helps its member groups develop their capacity to assist underserved communities in their respective countries and around the world.
Engineers Without Borders Canada is a non-governmental organization devoted to international development. Founded in 2000 by George Roter and Parker Mitchell, engineering graduates from the University of Waterloo, it is a registered Canadian charity focused on finding solutions to extreme poverty, specifically in rural Africa. The group has chapters at universities across Canada, and regional chapters aimed at professionals in several major cities.
Engineers Without Borders – USA (EWB–USA) is a non-profit humanitarian organization. It represents the United States within the larger international Engineers Without Borders in the U.S. It involves the implementation of sustainable engineering projects, while involving and training engineers and engineering students.
Fire protection engineering is the application of science and engineering principles to protect people, property, and their environments from the harmful and destructive effects of fire and smoke. It encompasses engineering which focuses on fire detection, suppression and mitigation and fire safety engineering which focuses on human behavior and maintaining a tenable environment for evacuation from a fire. In the United States 'fire protection engineering' is often used to include 'fire safety engineering'.
Engineers Without Borders Australia (EWB) is an Australian non-profit organisation with 20 active chapters, operating nationally and internationally with the published aim of improving the quality of life of disadvantaged communities through education and the implementation of sustainable engineering projects. EWB Australia was established in 2003 by a group of engineers from Melbourne who were motivated to take action on the developmental front through engineering.
The Cal Poly San Luis Obispo College of Engineering is the engineering college of the California Polytechnic State University, San Luis Obispo in San Luis Obispo, California. It has nearly 250 faculty members and more than 6,000 students enrolled in fourteen bachelor's and in eleven master's degree programs through nine engineering departments. Its facilities house more than 80 classrooms, laboratories and work spaces occupying more than 160,000 square feet. In the 2021 U.S. News & World Report's "America's Best Colleges" edition, the College of Engineering is ranked 8th out of 220 public and private undergraduate engineering schools in the U.S. where doctorates are not offered.
American Water Works Association (AWWA) is an international non-profit, scientific and educational association founded to improve water quality and supply. Established in 1881, it is a lobbying organization representing a membership of around 50,000 members worldwide.
Domenico Grasso is an American engineer, professor and the sixth chancellor of the University of Michigan–Dearborn. He has previously served as provost of the University of Delaware, vice president for research and dean of two different colleges at the University of Vermont. Grasso is Smith College's Picker Engineering Program's founding director.
Tetra Tech, Inc. is an American consulting and engineering services firm based in Pasadena, California. The company provides consulting, engineering, program management, and construction management services in the areas of water, environment, infrastructure, resource management, energy, and international development. Specific services for consulting and engineering projects include applied science, information technology, engineering, design, construction management, and operations and maintenance.
Engineers Without Borders New Zealand (EWBNZ) is a not-for-profit organisation based in New Zealand who champion humanitarian engineering as a means to improve community well-being, opportunity and alleviate poverty in all its forms. The organisation is member-based and incorporates several chapters of professional engineers, in Auckland, Hamilton, Wellington and Christchurch as well as two student chapters, from the University of Canterbury and the University of Auckland.
The term Engineers Without Borders is used by a number of non-governmental organizations in various countries to describe their activity based on engineering and oriented to international development work. All of these groups work worldwide to serve the needs of disadvantaged communities and people through engineering projects. Many EWB national groups are developed independently from each other, and so they are not all formally affiliated with each other, and their level of collaboration and organizational development varies. The majority of the EWB/ISF organizations are strongly linked to academia and to students, with many of them being student-led.
Engineering for Change (E4C) is an online platform and international community of engineers, scientists, non-governmental organizations, local community advocates and other innovators working to solve problems in sustainable global development. Their mission is to 'prepare, educate, and activate the international technical workforce to improve the quality of life of people and the planet.'
The Penn State College of Engineering is the engineering school of the Pennsylvania State University, headquartered at the University Park campus in University Park, Pennsylvania. It was established in 1896, under the leadership of George W. Atherton. Today, with 13 academic departments and degree programs, over 11,000 enrolled undergraduate and graduate students, and research expenditures of $124 million for the 2016-2017 academic year, the Penn State College of Engineering is in the top 20 of engineering schools in the United States. It is estimated that at least one out of every fifty engineers in the United States got their bachelor's degree from Penn State. Dr. Justin Schwartz currently holds the position of Harold and Inge Marcus Dean of Engineering.
Engineers Without Borders – Lebanon (EWB–Lebanon) is a non-profit group of engineers dedicated to public work and sustainable development. The group aims to help disadvantaged communities throughout Lebanon.
Michael John McGuire is an American environmental engineer, laboratory director and writer whose career has focused on drinking water quality improvement. He has been recognized for his expertise in the control of trace organic compounds, inorganic contaminants and microbial pathogens in water. He is also known for his work in the identification, control and treatment of taste and odor problems in drinking water. McGuire combined the development of taste and odor analytical methods along with in situ treatment and oxidation. He developed a solution to the Metropolitan Water District of Southern California's problem with trihalomethanes using ozone, PEROXONE and chloramines. He has published numerous articles in professional journals and he has been the co-editor of five books and compilations of articles. He published a book that documented the first continuous disinfection of a drinking water supply in the U.S. With Marie S. Pearthree, he wrote a book on the corrosive water debacle in Tucson, Arizona in 1992–94. He has been active in the American Water Works Association, and he has served as a volunteer and officer in that organization. In 2009, he was elected to the National Academy of Engineering.
Daniel Barton Oerther is an American professor. He is best known for leadership bridging engineering and nursing to advance environmental health practice through science diplomacy. Oerther uses 16S ribosomal RNA-targeted techniques for fundamental studies of the ecology of bacteria in engineered and natural systems. He promotes transdisciplinarity among engineers, nurses, and sanitarians to improve access to clean water, nutritious food, and efficient energy use in developing communities. Oerther practices innovation in the scholarship of teaching and learning, including modified mastery learning.
Association of Environmental Engineering and Science Professors (AEESP) is made up of professors in academic programs throughout the world who provide education in the sciences and technologies of environmental protection. The headquarters are located in Washington, DC.
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