Minova

Minova

Minova
Coordinates: 01°42′25″S 029°01′09″E / 1.70694°S 29.01917°E / -1.70694; 29.01917
Country	DR Congo
Province	South Kivu
Territory	Kalehe
Chiefdom	Buhavu
Time zone	UTC+2 (Central Africa Time)

Minova is a town in the Kalehe Territory, Democratic Republic of the Congo. It is an important business center for farm-fishery products. It is very close to Idjwi Island, Masisi Territory, Lake Kivu on its North Western shore and is only 45 km from the Goma city.^{[citation needed]} The town's development is linked with important refugee-related history, including those from Rwanda in 1994, those from Masisi in 1992–1997, and other surrounding areas^[1] in northern South Kivu Province, Democratic Republic of the Congo.^[2] It is known for being the site of the systematic rape of refugees by DRC troops. WE actually find many local organisations involved in the management of Gender Based Violence (GBV) working tirelessly to restore dignity to women and girls who were raped( Panzi Foundation DRC is one of them, and it is very active in Buzi -Bulenga area).

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VO: The Center for Applied Energy Research, at the University of Kentucky, and Minova partnered on a new concrete product marked by unprecedented speed and strength. The goal, create a new kind of concrete that could save lives in damaged structures and underground mines. Rodney Andrews: The project that led to the development of this product was originally funded through National Institute of Hometown Security based in Somerset, Kentucky. Their program is directed at solving infrastructure and related issues for Department of Homeland Security. Tom Robl: NIHS and the Department of Homeland Security, they wanted something to repair shock-damaged structures. This is a tough assignment. You’re adding weight to the structure which is already damaged and weakened. So what you’ve done is you’ve created what’s called a “parasitic load”. Whatever you’re putting on there had better react quickly and had better form strength quickly. Bob Jewell: You can think of a supportive structure where the rebar is expose and the joints between beams and columns. You don’t have time to go in and clean off a structure, wipe away debris, clean up dust, this doesn’t make sense. So, you need a material that sticks, adheres to pretty much anything you spray it to, and still gives you the strength, compressive, flexural strength and integrity that you’re wanting out of the concrete. And the product from this project did just that. Peter Mills: They are cementitious products, which means that you just mix them with water and they set hard. They harden so quickly that not only are they set in a few minutes, they are rock hard in a few minutes. We’re talking structural strength in as little as 15 minutes of hardening time, which is unheard of in the world of concrete. Bob Jewell: What are we trying to achieve? Fast setting strength, but also, we don’t want it to fail catastrophically. In the case of first responders, you’re entering a building…you want some integrity beyond its load capacity and the fibers give you that. What you’re doing is creating a dense network of fibers. So, instead of breaking concrete and having one main break, fibers allow that crack to break into a multitude of cracks, so you’re dispersing that energy throughout the concrete. For a high-strength concrete, you’re looking at maybe 4 to 700 psi in flexural strength testing while the final product … we were achieving 1200 psi, tripling the capacity of its flexural strength. Tom Robl: You can imagine where you would have a shock-damaged structure or a military type application, but also, for example, in the mining environment, which Minova is, of course, very intimately associated with the mining environment. Peter Mills: We manufacture steel and chemical consumables for mining, tunnel and civil engineering markets. We also make a huge array of different cementitious products, particularly in America, which are sold to mines and used for making the mines safer and more productive. Rodney Andrews: The relationship with Minova is a great example of how we partner with companies to develop new products. Tom Robl and his group have been working with them for many years. It was a natural on this project to bring them in as a partner as they know the application methods, they know a lot of the chemistries—what is needed to be done to create a final product that can be sold. Peter Mills: I’ve often used Tom and his colleagues as a source of expertise when it comes to fly ash. Tom thought of us and our knowledge of cement products to help to work with them to develop this product for the infrastructure project. And that’s how Tekcrete Fast came about. Tom Robl: We started out with one product, and Minova’s already got two out of it. Peter Mills: The difference between Tekcrete Fast and Tekcrete Fast M is that the M has been specially treated so that it’ almost dust free. Tom Robl: All of the mining companies they’ve shown it to are really happy with it. In the mining environment, when something needs to be fixed or stabilized, it’s got to be done quickly. It’s almost a crisis situation, like a shock-damaged structure. Peter Mills: These products are unique, not only in America, but I believe in the world, too. So wherever you could see a need for structural support effectively immediately, these products will fit the bill. VO: Fast set times and extreme strength come from fly ash—a byproduct of coal combustion. Rodney Andrews: CAER has the largest program in the United States looking at the use of coal combustion, gasification byproducts. These are things like fly ash… Rather than putting them in a landfill or into a pond we try to find ways to have these used…as sustainable construction materials. They work very well as replacements for Portland cement. More recently, the work’s been focused on using them to make specialty concretes, low-energy cements, fast-setting cements, and what are called calcium-sulfoaluminate cements, which are a completely different chemistry than Portland. VO: Concrete typically contains crushed stone, sand, and Portland cement. Tom Robl: It’s called a pozzolan…and what it does it makes the concrete stronger, it makes it more durable, and it makes it more resistant to certain kinds of chemical attacks. You can’t make high-performance concrete without a pozzolan. The number one role of fly ash is to replace Portland cement. In my opinion, replacing Portland cement and displacing it represents the greatest engineering materials challenge of our time. Portland cement is the third largest emitter of carbon dioxide on the planet. What we’re doing here with CSA, these calcium sulfoaluminate-based materials… they can be formulated by using coal-combustion byproducts at carbon emission levels a third that of Portland cement. We were able to take a system that is fundamentally different from Portland, and use a whole different set of chemical tools in engineering this material. Instead of forming a gel, they form an actual crystal. You can use nucleating agents… things that force the crystal to form faster. That’s one of the key things that we’ve done. Minova handled all the patent work. They simultaneously filed patents in London and Washington D.C. Peter Mills: We need to protect our very valuable intellectual property. Bob Jewell: This project has embodied research. What I love about research, you can sit down with an idea or concept and you get to follow it through. And every step poses new problems, new questions, and allows you to come up with these new answers. From concept to trial in the lab to field testing to actual product—it’s pretty amazing and unique. Tom Robl: We’re actually looking at some derivative technologies... If not this exact formulation, probably something that is the daughter or son of—at least grandson—of this. So we view this as the beginning of a fruitful and hopefully very lucrative collaboration between Minova and the University of Kentucky. 1

History

Minova is clearly one point of the Buhavu Chiefdom, headed by the Mwami Ntambuka dynasty, in the Kalehe Territory, South-Kivu Province. But the migrations of refugees and Humanitarians made this place to be developed, added to the recent activity of mining/minerals discovered in the surrounding mountains of Minova (Rubaya Mountains, Numbi Mountains, Nyabibwe Mountains, Kalungu Mountains) where Colombo-Tantalite and other minerals were discovered and extracted recently. Normally people from Minova are Havu, Hunde,Shi, Bahutu and Batembo ethnic groups. They live in a community of farmers, fishermen and small business entrepreneurs. The main products (beans, bananas, pineapple, cassava bread, fish, coffee, minerals, etc) are commercialized with Idjwi Island, Bukavu, Kabare, Walikale, Masisi and Goma inhabitants.There are Also General Hospitals (HGR Minova,CH Bulenga, CH Kalungu, HGR Kirotshe, CH Numbi) in the Minova catchment Area where people can receive quality healthcare services. There are also good schools, primary and secondary, either owned by religious institutions or the DRC Authorities where children receive their education by qualified teachers every year.) .^{[citation needed]}^{[clarification needed]}

Since 1994, Minova has grown up from a village to a large town, primarily due to the influx of refugees (from Rwanda in 1994, from Masisi in 1990-1996 and other surrounding areas) and from the fighting associated with the First and the Second Congo wars and subsequent continued fighting in this eastern area.^[1]^[3]^[4]^[5] As of 2012 Minova had grown to incorporate the former village of Butando and Buzi-Bulenga to the northwest.^[6]

On June 13, 1999, the fugitive Valérie Bemeriki, a genocidaire and former Radio-Télévision Libre des Milles Collines animatrice, was arrested in Minova.^[7]

For three days^[which?] in 2012, troops of the DRC committed systematic rapes and atrocities against refugee women and girls, who had been run out of Goma, then controlled by M23 rebel troops.^[8] Among the perpetrators were members of the US Special Forces-trained 391st Commando Battalion.^[9] There was international outrage and UN condemnation of these actions against hundreds of Congolese civilians. In 2014 the DRC Army conducted the "Minova Trial", the largest rape tribunal in DRC history, at which numerous women testified. In the end, only junior officers were convicted at the trial. An international summit was held in London in 2014 to work on actions against rape in warfare. However, the women of Minova are still at risk, and many were attacked again as violence in the area continued.^[8]

During the latest M23 offensive, in early February 2024 M23 rebels, backed by the Rwandan army, took control of the road linking Minova to Goma and Bukavu, causing the Congolese army to flee to Minova as well as tens of thousands of civilians. Humanitarian aid for the nearly 300,000 displaced people in Minova was reported as almost non-existent.^[10]

Geography

Minova is located in north-eastern part of Kalehe Territory at the head of Kabuno Bay, on the western shore of Lake Kivu. Minova is linked to Bukavu by road (75 km) and Lake Kivu, to Goma (about 40 km) by road and Lake Kivu, to Kibuye and Gisenyi by Lake Kivu, and to Masisi by road.^[11] The bed rock consists of metamorphic schists and quartzites.^[12]

Climate

In the Köppen-Geiger climate classification system, Minova's climate is tropical, wet, and dry (Aw). It is characterized by a very long rain season and a moderate dry season. This is a mountainous tropical climate and the temperature is under 30 Celsius degrees for the whole year (between 16 and 29 degrees Celsius).^[13]

Climate data for Maiduguri
Month	Jan	Feb	Mar	Apr	May	Jun	Jul	Aug	Sep	Oct	Nov	Dec	Year
Mean daily maximum °C (°F)	25 (77)	25 (77)	25.2 (77.4)	24.8 (76.6)	24.7 (76.5)	24.5 (76.1)	24.6 (76.3)	25.3 (77.5)	25.3 (77.5)	25.1 (77.2)	24.7 (76.5)	24.8 (76.6)	24.9 (76.9)
Daily mean °C (°F)	19.4 (66.9)	19.4 (66.9)	19.6 (67.3)	19.4 (66.9)	19.4 (66.9)	18.7 (65.7)	18.6 (65.5)	19.3 (66.7)	19.4 (66.9)	19.4 (66.9)	19.1 (66.4)	19.3 (66.7)	19.3 (66.6)
Mean daily minimum °C (°F)	13.8 (56.8)	13.8 (56.8)	14.1 (57.4)	14.1 (57.4)	14.1 (57.4)	13 (55)	12.6 (54.7)	13.3 (55.9)	13.5 (56.3)	13.7 (56.7)	13.5 (56.3)	13.8 (56.8)	13.6 (56.5)
Average precipitation mm (inches)	117 (4.6)	100 (3.9)	128 (5.0)	156 (6.1)	144 (5.7)	63 (2.5)	35 (1.4)	75 (3.0)	132 (5.2)	160 (6.3)	150 (5.9)	147 (5.8)	1,407 (55.4)
Source: Climate-Data.org (altitude: 1464m)^[13]

Representation in other media

The American documentary The Testimony (2015) was made about the women and their testifying at the Minova trial.^{[citation needed]}

References

^ ^a ^b "HOT Activation, South and North Kivu, Democratic Republic of Congo". Humanitarian OpenStreetMap Team. 16 December 2012. Archived from the original on 8 January 2013.
^ Minova (Approved) at GEOnet Names Server, United States National Geospatial-Intelligence Agency
^ "Increase in forced labor, rape and harassment in eastern Congo". Oxfam International. 13 November 2008. Archived from the original on 22 August 2010. Retrieved 8 January 2013.
^ Delay, Jerome & Gouby, Melanie (26 November 2012). "Congolese town allegedly looted by gov't troops". The Guardian. Manchester, UK. Archived from the original on 8 January 2013.
^ Prekabo, Vicky (26 December 2012). "DRC: Helping displaced communities in Goma". United Nations Office for the Coordination of Humanitarian Affairs (OCHA). Archived from the original on 8 January 2013. Retrieved 8 January 2013.
^ "Minova, Sud-Kivu, Democratic Republic of Congo" (PDF). Reférential Geographique Commun, République Démocratique du Congo. Archived (PDF) from the original on 8 January 2013.
^ "Valerie Bemeriki". TRIAL (Swiss association against impunity). Archived from the original on 8 April 2013.
^ ^a ^b Mark Townsend, "Revealed: how the world turned its back on rape victims of Congo", The Guardian, 13 June 2015; accessed 15 November 2017
^ Whitlock, Craig (23 May 2013). U.S.-trained Congolese troops committed rapes and other atrocities, U.N. says. Washington Post. Retrieved 14 December 2014.
^ Powell, Jim (15 March 2024). "The week around the world in 20 pictures". the Guardian. ISSN 0261-3077. Retrieved 16 March 2024.
^ Territoire de Kalehe: Zone de santé de Minova (PDF) (Map). UN Office for the Coordination of Humanitarian Affairs. 3 June 2014. Archived (PDF) from the original on 27 September 2014.
^ Simplified geological map of Kabuno Bay, (Map). Archived from the original on 17 July 2018. from Smets, Benoit; et al. (2016). "The role of inherited crustal structures and magmatism in the development of rift segments: Insights from the Kivu basin, western branch of the East African Rift". Tectonophysics. 683: 62–76. doi:10.1016/j.tecto.2016.06.022.
^ ^a ^b "Climate: Minova - Climate graph, Temperature graph, Climate table". Climate-Data.org. Retrieved 3 December 2013.