Hydrogen storage and compression system

What is claimed is: 1. A hydrogen storage-compression system comprising: a hydrogen storage-compression apparatus; a thermal management system; and a control system, wherein the hydrogen storage-compression apparatus includes a casing and a plurality of storage-compression units mounted within an internal chamber of the casing, wherein each storage-compression unit includes a container and a metal hydride configured for hydrogen storage-compression contained within the container, wherein the plurality of storage-compression containers are interconnected by a hydrogen gas circuit flow system to a hydrogen inlet and outlet for connection to a hydrogen consumer and a hydrogen source, wherein the thermal management system includes a thermal liquid circuit system and a heat exchanger system, wherein the thermal liquid circuit system includes a closed loop thermal liquid flow circuit, a thermal liquid contained and flowing within a thermal liquid flow circuit, and a thermal liquid pump for pumping the thermal liquid in the thermal liquid flow circuit, wherein the thermal liquid flow circuit is connected to a thermal liquid inlet and a thermal liquid outlet of the casing for flowing thermal liquid through casing internal chamber around the containers of the storage-compression units for cooling or heating thereof, and coupled to at least a first heat exchanger thermally coupled to heating source and to a second heat exchanger thermally coupled to a cooling source, and wherein the control system is connected to the thermal liquid circuit system for controlling the flow of the thermal liquid in the circuit and through the heat exchangers. 2. The hydrogen storage-compression system of claim 1 , wherein the thermal management system comprises a dry cooler thermally coupled to the thermal liquid flow circuit. 3. The hydrogen storage-compression system of claim 1 , wherein the thermal management system comprises one or more additional heat exchangers thermally coupled to the thermal liquid flow circuit. 4. The hydrogen storage-compression system of claim 3 , wherein the one or more additional heat exchangers comprise: a heat exchanger for waste heat recovery thermally coupled to an industrial process output; and/or a heat exchanger for free cooling. 5. The hydrogen storage-compression system of claim 1 , wherein the thermal liquid is selected from any one or more of a water-ethylene glycol mixture, a silicon oil, or a synthetic hydrocarbon oil. 6. The hydrogen storage-compression system of claim 1 , wherein the thermal liquid comprises a water-ethylene glycol mixture in a proportion of water to ethylene glycol in a range of 45% to 55% to 55% to 45%, or in a range of 50% to 50%. 7. The hydrogen storage-compression system of claim 1 , wherein the metal hydrides contained in the storage-compression units are of the material class AB2 with a composition of TixZryCraMnbFecNidCueVfReg, in which x, y, a, b, c, and d are molar ratios, Re is selected from La and Ce; 0.2≤x≤0.95; 0.05≤y≤0.45; 0.001≤a≤1; 0.3≤b≤2; 0.01≤c≤0.6; 0.005≤d≤1.5; 0≤e≤0.1; 0≤f≤0.5; 0.01≤g≤0.05; and a+b+c+d+e+f+g=1.9 to 2.3. 8. The hydrogen storage-compression system of claim 1 , wherein the metal hydrides contained in the storage-compression units are of the material class AB5 with a composition of LaxCeyMI(1−x−y)Nia CobFecMd, in which x, y, a, b, c and d are molar ratios, where Ml is at least one element selected from Y, Ti, Zr and M is selected from Cu and Mn; 0.15≤x≤0.95; 0.05≤y≤0.85; 0≤(1−x−y)≤0.1; 3.8≤a≤4.2; 0.1≤b≤1.2; 0.01≤c≤0.3; 0≤d≤0.1; 4.8≤(a+b+c+d)≤5.15. 9. The hydrogen storage-compression system of claim 1 , wherein the casing and the thermal liquid flow circuit are configured to withstand an internal pressure of at least 2 bar. 10. The hydrogen storage-compression system of claim 1 , wherein the control system is connected to valves of the hydrogen gas circuit flow system and to pressure sensors and temperature sensors connected to the hydrogen gas circuit flow system to control the inflow and outflow of hydrogen from the hydrogen storage compression system to and from the hydrogen source and the hydrogen consumer. 11. The hydrogen storage-compression system according to claim 1 , wherein each storage-compression container (comprises a tubular container wall having a diameter D in a range from 1.5 cm to 10 cm, and wherein adjacent ones of said plurality of storage-compression containers of said at least one multi-container unit are separated by a gap G having a length in a range between 0.02×D to 1×D. 12. The hydrogen storage-compression system of claim 11 , wherein the diameter D of the tubular container wall of each storage-compression container is in a range of 2 cm to 8 cm or in a range of 3 cm to 6 cm. 13. The hydrogen storage-compression system of claim 11 , wherein the gap G between the storage-compression containers is in a range of 0.1×D to 0.5×D. 14. The hydrogen storage-compression system of claim 11 , wherein the storage-compression containers have a length in a range of 60 cm to 200 cm or in range of 80 cm to 150 cm. 15. The hydrogen storage-compression system of claim 1 used as a near-isobaric hydrogen supply system to absorb and desorb hydrogen at elevated pressure greater than 50 bar or greater than 200 bar, and desorb hydrogen at substantially constant pressure with a temperature change of less than 40° C. or with a temperature change in a range of 20° C. to 30° C.