Climate change 3

From change to control

Climate change is one of the biggest problems we face, and it is a cumulative problem that is increasing with the absence or scarcity of solutions. Here are the problems and solutions (as a comprehensive practical solution) from Tocnology3 perspective:

The problems:

1-Increasing pollution levels:

As a result of emissions from combustion processes in our lives, this is a major problem that has caused global warming in addition to changes in the composition of our atmosphere.

2-Increasing temperatures:

The second problem, resulting from global warming, is that the Earth's temperature has risen at a rate of 0.11 degrees Fahrenheit (0.06 degrees Celsius) per decade since 1850. This amounts to a total increase of approximately 1.02 degrees Celsius. The world has set a limit of 1.5 degrees Celsius to prevent the most severe impacts of climate change. However, 2024 was the first year to exceed this threshold, by 1.55 degrees Celsius (a worrying and dangerous indicator if repeated).

3-Rising sea levels:

This is a serious problem as the level rises annually at a rate of 3.5 mm, meaning that a huge mass of water estimated at 1250 km3 is added annually to the waters of the seas and oceans, making it difficult or impossible to deal with.

The solutions:

The solutions must achieve a balance between land, sea, and air. Humans are capable of securing the technologies, and all we need is the will to that solutions, as follows:

1-           The solid solution (To help):

The most difficult solution involves removing a solid mass by deepening seas and oceans to accommodate a larger volume of water. This might be preferable if combined with mining operations to achieve feasibility. One example is the Dead Sea: this is a significant case where there is a plan to replenish it from the nearby Mediterranean or Red Seas, taking advantage of the difference in elevation (more than 400 meters below sea level). However, we recommend that before replenishing it, solid treatment through salt and mineral extraction should be carried out, in addition to widening and deepening operations to achieve greater capacity.

2-           Liquid solution (To stop):

This is an important and practical solution, which involves pumping 3 masses of marine water: 1- towards the land (for desalination and evaporation), 2- towards the poles (for freezing), 3- towards or from the depths (for cooling).

Desalination3, pump3, and rapid pumping play a crucial role in this process. This solution has a direct and rapid impact on mitigating the problem of climate change. Its applications include the following:

- Water mass for treatment: Estimated at a minimum of 1 km³/day.

- New technologies: Similar to icebreakers, we might see the development of icemakers that work in conjunction with polar cooling technologies to aid production and recovery.

- Desalination: Many may not know that desalination is a crucial method and technology for addressing climate change (especially the problem of rising sea levels). Currently contributing 2.5% to the solution, desalination3 aim to increase its share in production and thus its contribution to the solution to 25-50%.

3- Gaseous solution (To recovery):

There is commonly believed to be a difficult solution, but in reality, it is the easiest, involving the pumping of a massive amount of polluted air for treatment. Pumping and vacuuming technologies contribute directly to this process, which has the following aspects:

- Lower pollution levels: These are addressed through air pollution treatment plants that collect and treat air pollution from lower pollution levels, such as in cities and industrial areas. Tocnology3 also proposes the establishment of Airitation® air pollution treatment plants.

- Upper pollution levels: These are caused by aircraft and their serious and direct impact on the atmosphere. Tocnology3 addresses this by increasing the efficiency of its electric (emission-free) or hybrid (fuel-efficient) jet engines, and through the plane and plane3 project.

Recommendations:

• Collective Participation: Climate change is a global problem that threatens all of us, and everyone must participate in solving it seriously and urgently.

• Radical Transformation of the Energy Sector: This sector is the largest contributor to greenhouse gas emissions. Therefore, we must expand renewable and  Newable® sources, improve energy efficiency, and gradually phase out fossil fuels or develop measures and technologies that reduce their risks, such as Airitation® systems and their integration into urban planning.

• Development of Water and Agricultural Infrastructure: Since climate change directly affects water resources and food security, we must: implement smart water management, promote sustainable agriculture, and protect groundwater. Proposed projects include desalination3, deep drainage, and sustainable projects or Sorbits®.

• Collective Contribution: For example, all countries should contribute to pumping water from the sea to land for desalination or other purposes at a rate of 1-100 million cubic meters per day to control and manage sea levels and restore global water balance. desalination3 project is one example.

• Climate Solidarity: Developed countries must provide financial and technical support to developing countries to help them adapt. • Restoring balance to nature: This will be achieved through the implementation of the proposed solutions.

• Developing sustainable and clean transportation projects: Including the plane3® and Ship3 projects.

• Promoting innovation and modern technologies: This is the core of Tocnology3.

Summary:

From Tocnology3 perspective, Climate change (Cc) consists simply of three problems: increased pollution, rising temperatures, and rising sea levels. It requires three types of solutions: a solid solution (to help), a liquid solution (to stop), and a gaseous solution (to recover). These three solutions must be pursued simultaneously, with the objectives being achieved within ten years, to restore balance and achieve what so-called climate Control (cC).