Moyocoya Dam
| Moyocoya Dam | |
|---|---|
 Moyocoya Dam at night | |
| Official name | Moyocoya Dam |
| Location | Itzatlahuitl, Xallipan Republic |
| Purpose | Power, flood control, water storage, recreation |
| Status | Operational |
| Construction began | 1932 |
| Opening date | 1939 |
| Construction cost | 61 million Zacapine amatl (49 million Latin solidus) in 1932 |
| Owner(s) | Zacapine government |
| Operator(s) | Xallipan Water Authority |
| Dam and spillways | |
| Type of dam | Concrete arch-gravity dam |
| Impounds | Yoliliz river |
| Height | 222 m (728 ft) |
| Length | 380 m (1,250 ft) |
| Elevation at crest | 377 m (1,237 ft) |
| Width (crest) | 14 m (46 ft) |
| Width (base) | 200 m (660 ft) |
| Dam volume | 2,480,000 m3 (3,240,000 cu yd) |
| Spillway type | 2 controlled drum gates |
| Spillway capacity | 11,000 m3/s (390,000 cu ft/s) |
| Reservoir | |
| Creates | Lake Seti |
| Total capacity | 40.500 km3 (32,834,000 acre⋅ft) |
| Active capacity | 22.346 km3 (18,116,000 acre⋅ft) |
| Inactive capacity | 18.154 km3 (14,718,000 acre⋅ft) |
| Catchment area | 500,000 km2 (190,000 sq mi) |
| Surface area | 544 km2 (210 sq mi) |
| Maximum length | 175 km (109 mi) |
| Maximum water depth | 200 m (660 ft) |
| Normal elevation | 2,280 m (7,480 ft) |
| Power Station | |
| Operator(s) | Electric Network Administration |
| Commission date | 1939–1960 |
| Hydraulic head | 180 m (590 ft) (Max) |
| Turbines |
|
| Installed capacity | 2,538 MW |
| Capacity factor | 29% |
| Annual generation | 6.4 TWh (23 PJ) (2022) |
The Moyocoya Dam is a hydroelectric arch-gravity dam in the Itzatlahuitl section of the Yoliliz river in the Xallipan Republic of Zacapican. Built between 1932 and 1939, the Moyocoya Dam was the last of the great Xolotecatl era megaprojects to be completed as it was finished almost a full year after the assassination of Xolotecatl Acuixoc in 1938. The Yoliliz River Project as it was originally known was the first major public works project ever proposed under the Xolotecate regime, making it both the first and last of Xolotecatl's projects. The dam was proposed by the Public Works Secretary, Achto Moyocoya, who championed the project and rallied political support to push through the many hurtles the dam would face before and during construction. The project would come to bear Secretary Moyocoya's name as a result of his vigorous advocacy. Moyocoya Dam claimed the record of the tallest dam in the world and the largest by internal volume at the time of its completion in 1939, and remains the largest and tallest dam in Zacapican. The dam is widely regarded as a great feat of engineering and an important landmark of northern Zacapican, making it a popular tourist destination as well as a functional piece of infrastructure.
The dam sits just 40 kilometers from the center of Tzopilopan, a city of 1.7 million and the capital of Xallipan. The electricity generated by the dam's 20 turbines is primarily directed towards Tzopilopan and its suburbs, and has served as the main supply of electric power in the region since the turbine halls began operating in 1939, two weeks after the completion of the dam's construction. The reservoir created by the Moyocoya Dam, known as Lake Seti, represents the largest body of water in the arid Xallipan region of the country. This water is not only piped to Tzopilopan and the other settlements of the region for the personal consumption and use of its citizens, but also represents the lifeblood of the region's agriculture and local food supply. The Yoliliz river which the Moyocoya dams is naturally temperamental, prone to heavy seasonal flooding as well as major fluctuations in flow throughout the year. The dam not only provides a means of flood control, protecting the downstream agricultural communities from the summer snowmelt flooding, but also retains water from the summer floods for use in Xallipan during the dry months from April to October when the river runs at a much lower flow level and recedes within its banks.
Background
Dams had been proposed to be built at various locations along the upper course of the Yoliliz river in the upper Meco valley and Xallipan plateau due to the region's aridity and the severity of the river's seasonal floods, with proposals going as far back as 1880 under pre-revolutionary Aztapamatlan. This region of the country had been a sparsely populated and largely uninhabited border zone for centuries, in large part due to the lack of an significant water resources to sustain large scale agriculture. What agriculture there was usually established itself on the banks of the Yoliliz river which in turn rendered it vulnerable to the unpredictable floods which would hit between October and April every year. As late as the 17th century, large sections of the population in the region were semi-nomadic tribesmen of the highland desert. Xallipan was the last region of modern day Zacapican to have urbanized and remains one of the least developed constituent republics, thanks both to its high elevation, desert climate, and its status as one of only two landlocked republics in Zacapican. Because of this, Xallipan has long been the target of government projects attempting to foster development and a transformation of Xallipan into a more productive region of the country. The Yoliliz River Project would be the centerpiece of the Xolotecate era initiative to establish the infrastructural basis for Xallipan to join the rest of the country in the ongoing modernization and industrialization process of that era.
The Itzatlahuitl (White Canyon) site had been singled out as a potential site for a future dam as early as 1914, the same year Xolotecatl Acuixoc came to power in Zacapican. The canyon as seen as a key restriction in the river as it wound its way down the Xallipan plateau from its headwaters in the northern Mixtepemec mountain chain, and promised to be the most feasible site for a future dam. Itzatlahuitl has the logical site for such a dam to be built, but many of the possible locations along the length of the canyon were found to be lacking when surveyed. Criteria for a dam site required that the canyon be within a certain width, narrow enough for the dam to effectively span the width yet also wide enough that a work site could be established within the canyon to build the dam. The geological characteristics of the canyon walls would also need to be taken into account, as the rock would not only need to bear the weight of the water transmitted through the arch-dam design but also have several tunnels excavated through it to allow the river to be diverted around the dam site during construction. Several possible sites were also disqualified from consideration when significant faults were found in the canyons walls which would present serious vulnerabilities in the structural integrity of the project. The future site of the dam was surveyed and found to be suitable in 1921. Construction of the dam would be delayed by a further eleven years, however, thanks a lack of funding and a rise in political resistance from within the Xolotecatl regime during the 1920s.
Construction
Diversion tunnels
In order for any construction of the dam itself to proceed, the section of canyon would have to be drained for the full vertical height of the canyon rock faces to be cleared and prepared and for the dam to begin construction from the riverbed upward. This would require the flow of the river to be blocked using two temporary cofferdams made of blasted rock and earth fill to block the river from taking its natural course through the canyon, while diversion tunnels would have to be dug through the canyon walls themselves to bypass this blocked off section and allow the waters of Yoliliz to flow past the site unimpeded. The tunnels, which would have to be cut before the cofferdams could be put in place, represented the first major hurtle in the construction of the dam. The plans called for one tunnel to be cut into each side of the canyon, providing redundancy in case either tunnel would be clogged, collapsed or otherwise fail during the construction of the dam. Each tunnel would be roughly 1.3 kilometers long and some 25 meters in diameter to carry the river's waters through the canyon walls all the way around the dammed off section of the canyon and dump it back into the canyon downriver of the work site. They would also have to be wide enough and durable enough to withstand the duress of the summer floods for several years in a row while construction proceeded.
Tunneling began using the well proven method of drilling bore holes which would be filled with dynamite and then blasting out the layers of rock to expand the tunnel. In order to speed this process up, the construction crews would acquire specialized vehicles which were nicknamed totolontic trucks for their large size. This custom vehicles were lowered by crane from the top of the canyon and reversed into the tunnels, and provided a mobile platform for a dozen bore holes to be drilled at once from a double-decked superstructure built onto the back of the vehicle. The Totolontics are regarded as one of the earliest examples of a mechanized tunnel boring machine. One is preserved on the site of the dam's visitor center as a museum piece. Once the tunnels were blasted out using this method, a concrete lining a meter thick in places would be laid onto the walls via mobile crane set up inside the tunnel on rails. Construction of the cofferdams began early 1933, shortly before the tunnels were finished and nearly a year since construction had begun, finally draining the dam work site.
Rock clearance
Before the main construction project could begin, the unstable walls of the canyon would need to be cleared of loose rocks and stabilized in preparation for the dam to be build directly abutting the canyon walls. Clearance would need to take place along a significant length of the canyon in order to facilitate the construction of the turbine halls downriver of the dam structure itself. At the same time, excavation would begin at the bottom of the canyon to clear the way for the dam's foundation to be laid. This would bring the hazard of falling materials, which would prove the main cause of injuries and fatalities in the construction of the Moyocoya Dam. While more than 1 million cubic meters of loose rock and sediment were being dug up from the riverbed, the workers up on the walls could have to not only clear the loose rocks and sediment from the walls to remove the hazard these presented to those below, but would also need to clear the sections of wall where the dam would press against.
Because of the arched dam design called for in the plans, these sections of the canyon wall would serve an important structural purpose as the main landscape feature that would be receiving most of the force of the reservoir's weight transmitted through the arch of the dam laterally rather than downward. The entire upper layer of weathered rock would need to be blasted away to reach stable, unweathered virgin rock underneath. The workers scaling the walls to clear the rocks and blast out these side-wall sites were a special cohort within the thousands mobilized for the project, earning significantly elevated pay due to the great risk involved in their work environment. Mountain climbers and circus performers were sought out to work in these roles due to the level of acrobatics and technical knowledge that would be needed to work on the vertical canyon walls several meters tall, suspended over the workers excavating the foundations below by long tethers secured at the top of the canyon. It was during this phase than 12 of 14 deaths associated with the construction of the Moyocoya Dam would occur, 10 of whom were rock-scalers working in the walls.
Concrete pouring
The actual construction of the dam structure itself began on September 4th, 1934, two years into the Yoliliz River Project. As the entire main body of the dam was to be made of concrete, the specific dynamics of the concrete material and how it would be put in place was of central importance in the planning for the project. The climate in Xallipan presented problems, with scorching daytime temperatures under the desert sun, met with the bitter cold of the high altitude region at night, would only exacerbate the peculiarities of concrete drying and setting in a mold. Concrete cooling unevenly would crack and create structural faults, and the longer it would be exposed to these fluctuations in temperature the more uneven the setting would become. In order to avoid this, the designers planned for the concrete to be poured and set in smaller component blocks on the dam. This in turn would present another challenge, as the seams between the blocks would be a structural weakness. An innovative technique was therefore employed, shaping the concrete blocks with interlocking cog-like teeth on their sides which would be cemented together once the blocks were completed so as to seal them together while the interlocked teeth would help to mitigate any structural weak point at the seams between the blocks.
Moyocoya Dam would require millions of tons of concrete for the completion of its main arch. More than 3 million tons of concrete would be used for the entire project, 2.5 million of which account for the main dam wall with the rest being used to build the turbine halls and other structure at the site. A massive on-site concrete plant was established at the new railhead near the edge of the canyon to produce the material on site, although many tons of fine sand would need to be dredged and brought in by rail from beaches in the Xochicuauhuico Republic about 500 kilometers away. Once mixed with aggregate on site, the concrete would be poured into massive steel containers which could weight up to 20 tons fully loaded. These containers were pulled out into the open air above the canyon by a heavy load cable system, and would then be lowered over the dam under construction from above to pour out the concrete into the columnar molds built in place by the workers down below. The entire site was illuminated by electric floodlights mounted on the canyon walls so that pouring could proceed around the clock. A system of tubes was built into each mold through cold water could be run, accelerating the cooling process and allowing the rate of cooling deep inside the block to be regulated so as to be in pace with the cooling of the exterior and avoid any cracks or deformities from an uneven cooling. Pouring was completed just six days before Xolotecatl Acuixoc was assassinated in 1938.
Architecture
Much of the work yet to be completed by the time Xolotecatl's assassination put a pause on most public works projects was primarily architectural detailing and work involving the powerplant section of the dam. The original plans had not included any decorations whatsoever and had been almost entirely utilitarian in its proposed appearance, which was criticized by national leadership who vested tremendous political and social value into the project as the work went on. Eventually, the art deco style of ornamentation was chosen, approved by Xolotecatl before his death and carried forward by Secretary Moyocoya and his deputies afterward. This style could come to be closely associated with the Xolotecatl and with the many Zacapine state projects that were decorated in it, causing the deco style to remain popular in Zacapican long after it had gone out of fashion elsewhere. As well as decorating the features of the dam itself, a visitor center and museum would be added to accommodate the unexpected rise in tourism to the area as well as a memorial for those killed during the construction.
Operation
Power generation
Lake Seti would reach the required level to begin generating power on December 1st, 1940, when the Moyocoya powerplant would begin generating electricity for the national grid. This would immediately displace two coal fired powerplants in southeastern Xallipan along the border with the Ayomazaco Republic, which would then provide power across the border to the cities of Ayomazaco with the Moyocoya Dam assuming all power demands in Xallipan for several decades afterward. Even as the population in Tzopilopan began to expand and draw many power-hungry industries to the region, the dam's generating capacity would be more than sufficient to supply the entire Republic's power demands until 1978, a full 38 years since generation began, when a power plant operating a first generation TCTN-type nuclear reactor was built in central Xallipan to generate additional power needed for the growing industries. In order to generate power, water is taken in through the four intake towers upriver from the dam itself. When the reservoir is full, the towers provide a hydraulic head of 180 meters, maximizing the pressure and thus the potential energy of the water. This water moved through tunnels connecting the intake towers with the original diversion tunnels cut into the canyon walls, allowing water to then be moved around the dam and in a position to flow through the horseshoe-shaped powerplant structure and its array of 20 turbines to convert the potential and kinetic energy of the water into electricity as it flows out.
Most of the electric generation capacity (2,400 of 2,538 MW) of the Moyocoya Dam resides in sixteen 150 megawatt turbines, eight residing in each of the two turbine halls. These are the primary generation turbines. A set of two secondary generation turbines capable of producing 65 megawatts each serve as the auxiliary generation units, which were added into the existing structure in 1955 to increase the overall generation capacity. The final two turbines of the dam's powerplant, with a maximum output of just 4 megawatts each, are used to power the dam itself alongside the surrounding facilities. As with most power plants and especially hydroelectric dams, the actual level of power generation of the Moyocoya Dam falls significantly short of the mark of its theoretical maximum set forth by its installed capacity. The dam typically operates at between 20% and 30% (between 4.4 and 6.7 terawatt hours) of its installed capacity of roughly 22 terawatt hours. If the dam generated power at its full capacity, it would be theoretically capable of generating 5% of all the electricity consumed in Zacapican on its own.
Tourism
The popularity of the Moyocoya Dam in popular culture was an unexpected side-effect of the political emphasis placed on the project. Through a tireless campaign to keep up public support for the expensive project, Secretary Moyocoya inadvertently turned the dam into an easily recognizable national symbol clearly representative of the modernist ideals of the Xolotecate era which created it. The public interest in the dam far exceeded what Achto Moyocoya had anticipated, turning from public support for a mundane albeit massive public works project into a national fascination with what is still widely considered to be one of the greatest landmarks in the nation. Designs were altered mid-construction with much of the dam already built in order to add various decorations and artistic features befitting of a structure of such importance to the public. Additionally, an entirely new visitor center, museum and memorial structure were added to the schematics in 1937 to accommodate the flow of visitors which had already began to flock to the work site to watch the dam being built and in anticipation of the many more visitors which would come after. Today, some 750,000 tourists visit the dam every year.