Lotus Control is a true reference in the Construction Sector Industrial Plant due our great ability to offer complete solutions for large projects anywhere in the world.
ALTBACH- LOTUS CONTROL has been selected by SENER BONATTI to supply the FILTER package for ALTBACH power plant - GERMANY
The planned construction of a combined cycle gas turbine (CCGT) power plant in Altbach/Deizisau marks a crucial step towards modernization and efficiency in power generation in this region. The facility is designed to have an estimated electrical output of around 680 megawatts (MW) and a thermal output of up to 180 MW for heat extraction. This project promises to be a key component in the development of the local energy infrastructure. Some relevant aspects of the project are detailed here: The choice of a power plant with CCGT technology reflects a focus on energy efficiency. The combined cycle allows both electricity generation and waste heat production to be harnessed, maximizing efficiency in the use of energy resources. The new plant will add diversity to the local energy matrix, offering a more flexible and efficient source of generation. This can contribute to the stability of the electricity supply and reduce dependence on more traditional energy sources. The plant's capacity to extract up to 180 MW of thermal heat means that this energy can be used in applications such as district heating or local industrial processes, providing additional benefits to the community and industry. By incorporating advanced technologies such as the combined cycle gas turbine, the project has the potential to contribute to the reduction of pollutant emissions compared to older or conventional technologies.
EL SAUZ- LOTUS CONTROL has been selected to supply the BALL VALVES for the COMBINED CYCLE of EL SAUZ (TSK).
The "El Sauz" COMBINED CYCLE Power Plant located in Pedro Escobedo, Querétaro, is integrated by 5 units that generate an average of 591 MW. It is a project in which the incorporation of more efficient electricity generation technology, based on natural gas, will allow Mexico to continue reducing the contribution of the most polluting electricity generation plants, which use heavy liquids as fuels, thus helping the decarbonization of its electrical system.
KILOMBERO - LOTUS CONTROL has been selected for the supply of BUTTERFLY VALVES for the KILOMBERO (TSK) project.
This is a sugar plant located in KILOMBERO, TANZANIA in the region of Morogoro, in the center/south of the country. Its objective is the production of brown sugar and potable alcohol, and the internal generation of electricity from renewable resources. This new development will increase Kilombero's sugar production by 144,000 tons, from current levels of about 127,000 tons of sugar per year to 271,000 tons.
SAN LUIS DE POTOSI - LOTUS CONTROL has been selected for the supply of BALL VALVES AND CONTROL VALVES for the SAN LUIS DE POTOSI COMBINED CYCLE (TSK). A combined cycle power generation plant with a guaranteed net capacity of 804.80 MW (+-10%) at summer design condition at 100% load, considering natural gas as fuel, consisting of 2 gas turbogenerators, 2 heat recovery steam generators, a steam turbogenerator and a wet tower type main cooling system, main and auxiliary transformers and all the necessary equipment for its integration, the plant will be located in the municipality of Villa de Reyes, in the state of San Luis Potosi.
SALAMANCA - LOTUS CONTROL has been selected for the supply of BALL VALVES, CONTROL VALVES and ATTEMPERATORS for the SALAMANCA COMBINED CYCLE (TSK).
The Salamanca combined cycle plant, with a capacity of 836.79 megawatts (MW), will consist of two gas turbogenerators, two heat recovery steam generators and a steam turbine, plus other equipment including the electrical transmission system. The project is located on the site of the Salamanca Thermoelectric Power Plant (in operation), which is located approximately 1.5 km from the municipal capital of Salamanca, and its objective is to contribute to meeting the future electricity demand forecast for the western area, maintaining the regional reserve margins at adequate levels that meet the standards defined for the electrical system.